Neural network models of the tactile system develop first-order units with spatially complex receptive fields.

Journal: PloS one

Published Date: Jun 14, 2018

Abstract

First-order tactile neurons have spatially complex receptive fields. Here we use machine-learning tools to show that such complexity arises for a wide range of training sets and network architectures. Moreover, we demonstrate that this complexity benefits network performance, especially on more difficult tasks and in the presence of noise. Our work suggests that spatially complex receptive fields are normatively good given the biological constraints of the tactile periphery.

Authors

Charlie W Zhao

Dept. of Computer Science, Western University, London, Ontario, Canada.
Mark J Daley

Dept. of Computer Science, Western University, London, Ontario, Canada.
J Andrew Pruszynski

Dept. of Computer Science, Western University, London, Ontario, Canada.

Keywords

Models, Neurological Neural Networks, Computer Neurons Touch

External Resources

View on PubMed Access via DOI PubMed (29902277)

Neural network models of the tactile system develop first-order units with spatially complex receptive fields.

Abstract

Authors

Keywords

External Resources

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