A novel analysis approach of uniform persistence for a COVID-19 model with quarantine and standard incidence rate

Abstract: A coronavirus disease 2019 (COVID-19) model with quarantine and standard incidence rate is first developed, then a novel analysis approach for finding the ultimate lower bound of COVID-19 infectious individuals is proposed, which means that the COVID-19 pandemic is uniformly persistent if the control reproduction number $\mathcal{R}{c}>1$. This approach can be applied to other related biomathematical models, and some existing works can be improved by using it. In addition, the COVID-19-free equilibrium $V^0$ is locally asymptotically stable (LAS) if $\mathcal{R}{c}<1$ and linearly stable if $\mathcal{R}{c}=1$, respectively; while $V^0$ is unstable if $\mathcal{R}{c}>1$.