On the dynamics of cortical development: Synchrony and synaptic self-organisation

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Abstract

We describe a model for cortical development that resolves long-standing difficulties of earlier models. It is proposed that, during embryonic development, synchronous firing of neurons and their competition for limited metabolic resources leads to selection of an array of neurons with ultra-small-world characteristics. Consequently, in the visual cortex, macrocolumns linked by superficial patchy connections emerge in anatomically realistic patterns, with an ante-natal arrangement which projects signals from the surrounding cortex onto each macrocolumn in a form analogous to the projection of a Euclidean plane onto a Möbius strip. This configuration reproduces typical cortical response maps, and simulations of signal flow explain cortical responses to moving lines as functions of stimulus velocity, length and orientation. With the introduction of direct visual inputs, under the operation of Hebbian learning, development of mature selective response "tuning" to stimuli of given orientation, spatial frequency and temporal frequency would then take place, overwriting the earlier ante-natal configuration. The model is provisionally extended to hierarchical interactions of the visual cortex with higher centres, and a general principle for cortical processing of spatio-temporal images is sketched. © 2013 Wright and Bourke.

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Wright, J., & Bourke, P. D. (2013). On the dynamics of cortical development: Synchrony and synaptic self-organisation. Frontiers in Computational Neuroscience, (JAN). https://doi.org/10.3389/fncom.2013.00004

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