Title of article
Binocular rivalry waves in a directionally selective neural field model
Author/Authors
Carroll، نويسنده , , Samuel R. and Bressloff، نويسنده , , Paul C.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2014
Pages
10
From page
8
To page
17
Abstract
We extend a neural field model of binocular rivalry waves in the visual cortex to incorporate direction selectivity of moving stimuli. For each eye, we consider a one-dimensional network of neurons that respond maximally to a fixed orientation and speed of a grating stimulus. Recurrent connections within each one-dimensional network are taken to be excitatory and asymmetric, where the asymmetry captures the direction and speed of the moving stimuli. Connections between the two networks are taken to be inhibitory (cross-inhibition). As per previous studies, we incorporate slow adaption as a symmetry breaking mechanism that allows waves to propagate. We derive an analytical expression for traveling wave solutions of the neural field equations, as well as an implicit equation for the wave speed as a function of neurophysiological parameters, and analyze their stability. Most importantly, we show that propagation of traveling waves is faster in the direction of stimulus motion than against it, which is in agreement with previous experimental and computational studies.
Keywords
Neural field equation , binocular rivalry , Traveling waves , Direction selectivity
Journal title
Physica D Nonlinear Phenomena
Serial Year
2014
Journal title
Physica D Nonlinear Phenomena
Record number
1730777
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