Disentanglement with Biological Constraints: A Theory of Functional Cell Types
September 30, 2022 Β· Declared Dead Β· π International Conference on Learning Representations
"No code URL or promise found in abstract"
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Authors
James C. R. Whittington, Will Dorrell, Surya Ganguli, Timothy E. J. Behrens
arXiv ID
2210.01768
Category
q-bio.NC
Cross-listed
cs.LG,
cs.NE
Citations
69
Venue
International Conference on Learning Representations
Last Checked
4 months ago
Abstract
Neurons in the brain are often finely tuned for specific task variables. Moreover, such disentangled representations are highly sought after in machine learning. Here we mathematically prove that simple biological constraints on neurons, namely nonnegativity and energy efficiency in both activity and weights, promote such sought after disentangled representations by enforcing neurons to become selective for single factors of task variation. We demonstrate these constraints lead to disentanglement in a variety of tasks and architectures, including variational autoencoders. We also use this theory to explain why the brain partitions its cells into distinct cell types such as grid and object-vector cells, and also explain when the brain instead entangles representations in response to entangled task factors. Overall, this work provides a mathematical understanding of why single neurons in the brain often represent single human-interpretable factors, and steps towards an understanding task structure shapes the structure of brain representation.
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