Abstract
In cortex, neighboring 0.05 mm minicolumns have distinctly different receptive fields (RFs). Within minicolumns, neighboring cells have very similar RFs, but differ prominently in their stimulus-evoked temporal behaviors. This is reproduced in a cortical model that has strong inhibition and semi-random lateral connections among cells with similar RFs. Within modeled minicolumns, non-linear dynamics amplify small differences in cells' lateral inputs into large differences in temporal behaviors. Cells' stimulus-evoked behaviors, though complex, are surprisingly orderly, in that (1) time courses of cells' responses are very stimulus-specific and (2) in the presence of a stimulus, activities of some cells fluctuate coherently, and the patterns of coherence are also stimulus-specific. Thus the model, like real cortex, represents stimulus information in the overall strengths and temporal patterns of cells' responses and in patterns of temporal coherence among cells.
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