Decoding the Brain: Neural Representation and the Limits of Multivariate Pattern Analysis in Cognitive Neuroscience
Decoding the Brain: Neural Representation and the Limits of Multivariate Pattern Analysis in Cognitive Neuroscience
Abstract Since its introduction, multivariate pattern analysis (MVPA), or “neural decoding”, has transformed the field of cognitive neuroscience. Underlying its influence is a crucial inference, which we call the Decoder’s Dictum: if information can be decoded from patterns of neural activity, then this provides strong evidence about what information those patterns represent. Although the Dictum is a widely held and well-motivated principle in decoding research, it has received scant philosophical attention. We critically evaluate the Dictum, arguing that it is false: decodability is a poor guide for revealing the content of neural representations. However, we also suggest how the Dictum can be improved on, in order to better justify inferences about neural representation using MVPA.
Ritchie J. Brendan、Kaplan David Michael、Klein Colin
Laboratory of Biological Psychology KU Leuven TiensestraaDepartment of Cognitive Science Perception in Action Research Centre ARC Centre of Excellence in Cognition and its Disorders Macquarie University NSWDepartment of Philosophy ARC Centre of Excellence in Cognition and its Disorders Macquarie University NSW
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Ritchie J. Brendan,Kaplan David Michael,Klein Colin.Decoding the Brain: Neural Representation and the Limits of Multivariate Pattern Analysis in Cognitive Neuroscience[EB/OL].(2025-03-28)[2025-04-30].https://www.biorxiv.org/content/10.1101/127233.点此复制
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