4.7 Article

Neural network modeling of altered facial expression recognition in autism spectrum disorders based on predictive processing framework

Journal

SCIENTIFIC REPORTS
Volume 11, Issue 1, Pages -

Publisher

NATURE PORTFOLIO
DOI: 10.1038/s41598-021-94067-x

Keywords

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Funding

  1. Strategic Research Program for Brain Sciences of the Japan Agency for Medical Research and Development [JP20dm0107076]
  2. Tohoku University Advanced Research Center for Innovations in Next-Generation Medicine
  3. JST CREST [JPMJCR16E2]
  4. JSPS KAKENHI [JP21K15723, JP18KT0021, JP19H04998, JP20H00001, JP20H00625]
  5. JSPS [JP19J20281]

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This study proposes a system-level explanation for understanding the facial emotion recognition process and its alteration in autism spectrum disorder (ASD) from the perspective of predictive processing theory. Through the use of hierarchical recurrent neural networks (RNNs), the research showed that impaired facial emotion recognition in ASD can be explained by altered predictive processing, providing possible insight for investigating the neurophysiological basis of affective contact.
The mechanism underlying the emergence of emotional categories from visual facial expression information during the developmental process is largely unknown. Therefore, this study proposes a system-level explanation for understanding the facial emotion recognition process and its alteration in autism spectrum disorder (ASD) from the perspective of predictive processing theory. Predictive processing for facial emotion recognition was implemented as a hierarchical recurrent neural network (RNN). The RNNs were trained to predict the dynamic changes of facial expression movies for six basic emotions without explicit emotion labels as a developmental learning process, and were evaluated by the performance of recognizing unseen facial expressions for the test phase. In addition, the causal relationship between the network characteristics assumed in ASD and ASD-like cognition was investigated. After the developmental learning process, emotional clusters emerged in the natural course of self-organization in higher-level neurons, even though emotional labels were not explicitly instructed. In addition, the network successfully recognized unseen test facial sequences by adjusting higher-level activity through the process of minimizing precision-weighted prediction error. In contrast, the network simulating altered intrinsic neural excitability demonstrated reduced generalization capability and impaired emotional clustering in higher-level neurons. Consistent with previous findings from human behavioral studies, an excessive precision estimation of noisy details underlies this ASD-like cognition. These results support the idea that impaired facial emotion recognition in ASD can be explained by altered predictive processing, and provide possible insight for investigating the neurophysiological basis of affective contact.

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