Feature selection in simple neurons: how coding depends on spiking dynamics
Abstract
The relationship between a neuron's complex inputs and its spiking output defines the neuron's coding strategy. This is frequently and effectively modeled phenomenologically by one or more linear filters that extract the components of the stimulus that are relevant for triggering spikes, and a nonlinear function that relates stimulus to firing probability. In many sensory systems, these two components of the coding strategy are found to adapt to changes in the statistics of the inputs, in such a way as to improve information transmission. Here, we show for two simple neuron models how feature selectivity as captured by the spike-triggered average depends both on the parameters of the model and on the statistical characteristics of the input.
Cite
@article{arxiv.0902.2020,
title = {Feature selection in simple neurons: how coding depends on spiking dynamics},
author = {Michael Famulare and Adrienne L. Fairhall},
journal= {arXiv preprint arXiv:0902.2020},
year = {2011}
}
Comments
23 Pages, LaTeX + 4 Figures. v2 is substantially expanded and revised. v3 corrects minor errors in Sec. 3.6