On the Role of Noise in AudioVisual Integration: Evidence from Artificial Neural Networks that Exhibit the McGurk Effect

Abstract: Humans are able to fuse information from both auditory and visual modalities to help with understanding speech. This is frequently demonstrated through an phenomenon known as the McGurk Effect, during which a listener is presented with incongruent auditory and visual speech that fuse together into the percept of an illusory intermediate phoneme. Building on a recent framework that proposes how to address developmental 'why' questions using artificial neural networks, we evaluated a set of recent artificial neural networks trained on audiovisual speech by testing them with audiovisually incongruent words designed to elicit the McGurk effect. We compared networks trained on clean speech to those trained on noisy speech, and discovered that training with noisy speech led to an increase in both visual responses and McGurk responses across all models. Furthermore, we observed that systematically increasing the level of auditory noise during ANN training also increased the amount of audiovisual integration up to a point, but at extreme noise levels, this integration failed to develop. These results suggest that excessive noise exposure during critical periods of audiovisual learning may negatively influence the development of audiovisual speech integration. This work also demonstrates that the McGurk effect reliably emerges untrained from the behaviour of both supervised and unsupervised networks. This supports the notion that artificial neural networks might be useful models for certain aspects of perception and cognition.