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Paper detail

Information processing occurs via critical avalanches in a model of the primary visual cortex

We study a new biologically motivated model for the Macaque monkey primary visual cortex which presents power-law avalanches after a visual stimulus. The signal propagates through all the layers of the model via avalanches that depend on network structure and synaptic parameter. We identify four different avalanche profiles as a function of the excitatory postsynaptic potential. The avalanches follow a size-duration scaling relation and present critical exponents that match experiments. The structure of the network gives rise to a regime of two characteristic spatial scales, one of which vanishes in the thermodynamic limit.

preprint2016arXivOpen access
G. S. BortolottoM. Girardi-SchappoJ. J. GonsalvesL. T. PintoM. H. R. Tragtenberg
cond-mat.stat-mechBiological Physicsnlin.AOcond-mat.dis-nnNeurons and Cognition
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G. S. BortolottoM. Girardi-SchappoJ. J. GonsalvesL. T. PintoM. H. R. Tragtenberg

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