Felix Effenberger
Max Planck Institute

Discovery of salient low-dimensional dynamical structure in neuronal population activity using Hopfield networks

Tuesday 21st of July 2015 at 02:00pm
560 Evans

We present a novel method for the classical task of finding and extracting recurring spatiotemporal patterns in recorded spiking activity of neuronal populations. In contrast to previously proposed methods it does not seek to classify exactly recurring patterns, but rather approximate versions possibly differing by a certain number of missed, shifted or excess spikes. We achieve this by fitting large Hopfield networks to windowed, binned spiking activity in an unsupervised way using minimum probability flow parameter estimation and then collect Hopfield memories over the raw data. This procedure results in a drastic reduction of pattern counts and can be exploited to identify prominently recurring spatiotemporal patterns. Modeling furthermore the sequence of occurring Hopfield memories over the original data as a Markov process, we are able to extract low-dimensional representations of neural population activity on longer time scales. We demonstrate the approach on a data set obtained in rat barrel cortex and show that it is able to extract a remarkably low-dimensional, yet accurate representation of average population activity observed during the experiment.

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