Normalization of cell responses in cat striate cortex
- 1 August 1992
- journal article
- research article
- Published by Maximum Academic Press in Visual Neuroscience
- Vol. 9 (2) , 181-197
- https://doi.org/10.1017/s0952523800009640
Abstract
Simple cells in the striate cortex have been depicted as half-wave-rectified linear operators. Complex cells have been depicted as energy mechanisms, constructed from the squared sum of the outputs of quadrature pairs of linear operators. However, the linear/energy model falls short of a complete explanation of striate cell responses. In this paper, a modified version of the linear/energy model is presented in which striate cells mutually inhibit one another, effectively normalizing their responses with respect to stimulus contrast. This paper reviews experimental measurements of striate cell responses, and shows that the new model explains a significantly larger body of physiological data.Keywords
This publication has 101 references indexed in Scilit:
- Motion selectivity and the contrast-response function of simple cells in the visual cortexVisual Neuroscience, 1991
- Evaluation of a linear model of directional selectivity in simple cells of the cat's striate cortexVisual Neuroscience, 1991
- Adaptation in single units in visual cortex: The tuning of aftereffects in the temporal domainVisual Neuroscience, 1989
- Adaptation in single units in visual cortex: The tuning of aftereffects in the spatial domainVisual Neuroscience, 1989
- Role of Inhibition in the Specification of Orientation Selectivity of Cells in the Cat Striate CortexVisual Neuroscience, 1989
- Selective responses of visual cortical cells do not depend on shunting inhibitionNature, 1988
- Periodicity of striate-cortex-cell receptive fieldsJournal of the Optical Society of America A, 1985
- Non-linear temporal summation by simple cells in cat striate cortex demonstrated by failure of superpositionExperimental Brain Research, 1982
- Orientation selectivity in the cat's striate cortex is invariant with stimulus contrastExperimental Brain Research, 1982
- Neural Correlate of Perceptual Adaptation to GratingsScience, 1973