Vector-Based Integration of Local and Long-Range Information in Visual Cortex
Author(s)
Somers, David C.; Todorov, Emanuel V.; Siapas, Athanassios G.; Sur, Mriganka
DownloadAIM-1556.ps (2.069Mb)
Additional downloads
Metadata
Show full item recordAbstract
Integration of inputs by cortical neurons provides the basis for the complex information processing performed in the cerebral cortex. Here, we propose a new analytic framework for understanding integration within cortical neuronal receptive fields. Based on the synaptic organization of cortex, we argue that neuronal integration is a systems--level process better studied in terms of local cortical circuitry than at the level of single neurons, and we present a method for constructing self-contained modules which capture (nonlinear) local circuit interactions. In this framework, receptive field elements naturally have dual (rather than the traditional unitary influence since they drive both excitatory and inhibitory cortical neurons. This vector-based analysis, in contrast to scalarsapproaches, greatly simplifies integration by permitting linear summation of inputs from both "classical" and "extraclassical" receptive field regions. We illustrate this by explaining two complex visual cortical phenomena, which are incompatible with scalar notions of neuronal integration.
Date issued
1996-01-18Other identifiers
AIM-1556
CBCL-127
Series/Report no.
AIM-1556CBCL-127
Keywords
MIT, Receptive Field, Cortical Circuits, Modules, Cortical Inhibition, Computational Neuroscience.