Place-cell capacity and volatility with grid-like inputs

Author(s)

Yim, Man Yi; Sadun, Lorenzo A; Fiete, Ila R; Taillefumier, Thibaud

Abstract

<jats:p>What factors constrain the arrangement of the multiple fields of a place cell? By modeling place cells as perceptrons that act on multiscale periodic grid-cell inputs, we analytically enumerate a place cell’s <jats:italic>repertoire</jats:italic> – how many field arrangements it can realize without external cues while its grid inputs are unique – and derive its <jats:italic>capacity</jats:italic> – the spatial range over which it can achieve any field arrangement. We show that the repertoire is very large and relatively noise-robust. However, the repertoire is a vanishing fraction of all arrangements, while capacity scales only as the sum of the grid periods so field arrangements are constrained over larger distances. Thus, grid-driven place field arrangements define a large response scaffold that is strongly constrained by its structured inputs. Finally, we show that altering grid-place weights to generate an arbitrary new place field strongly affects existing arrangements, which could explain the volatility of the place code.</jats:p>

Date issued

2021

URI

https://hdl.handle.net/1721.1/138218

Department

Massachusetts Institute of Technology. Department of Brain and Cognitive Sciences
McGovern Institute for Brain Research at MIT

Journal

eLife

Publisher

eLife Sciences Publications, Ltd

Citation

Yim, Man Yi, Sadun, Lorenzo A, Fiete, Ila R and Taillefumier, Thibaud. 2021. "Place-cell capacity and volatility with grid-like inputs." eLife, 10.

Version: Final published version