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Literature DB >> 8697227

Effect of binocular cortical misalignment on ocular dominance and orientation selectivity.

H Shouval¹, N Intrator, C C Law, L N Cooper.

Abstract

We model a two-eye visual environment composed of natural images and study its effect on single cell synaptic modification. In particular, we study the effect of binocular cortical misalignment on receptive field formation after eye opening. We show that binocular misalignment affects principal component analysis (PCA) and Bienenstock, Cooper, and Munro (BCM) learning in different ways. For the BCM learning rule this misalignment is sufficient to produce varying degrees of ocular dominance, whereas for PCA learning binocular neurons emerge in every case.

Mesh：

Year: 1996 PMID： 8697227 DOI： 10.1162/neco.1996.8.5.1021

Source DB: PubMed Journal: Neural Comput ISSN： 0899-7667 Impact factor: 2.026

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Cited

7 in total

1. The subregion correspondence model of binocular simple cells.

Authors: E Erwin; K D Miller
Journal: J Neurosci Date: 1999-08-15 Impact factor: 6.167

2. Structured long-range connections can provide a scaffold for orientation maps.

Authors: H Z Shouval; D H Goldberg; J P Jones; M Beckerman; L N Cooper
Journal: J Neurosci Date: 2000-02-01 Impact factor: 6.167

3. Statistics of lateral geniculate nucleus (LGN) activity determine the segregation of ON/OFF subfields for simple cells in visual cortex.

Authors: A B Lee; B Blais; H Z Shouval; L N Cooper
Journal: Proc Natl Acad Sci U S A Date: 2000-11-07 Impact factor: 11.205

4. Correlation-based development of ocularly matched orientation and ocular dominance maps: determination of required input activities.

Authors: E Erwin; K D Miller
Journal: J Neurosci Date: 1998-12-01 Impact factor: 6.167

Effect of binocular cortical misalignment on ocular dominance and orientation selectivity.

1. The subregion correspondence model of binocular simple cells.

2. Structured long-range connections can provide a scaffold for orientation maps.

3. Statistics of lateral geniculate nucleus (LGN) activity determine the segregation of ON/OFF subfields for simple cells in visual cortex.

4. Correlation-based development of ocularly matched orientation and ocular dominance maps: determination of required input activities.

5. The role of presynaptic activity in monocular deprivation: comparison of homosynaptic and heterosynaptic mechanisms.

6. A reaction-diffusion model to capture disparity selectivity in primary visual cortex.

7. Sparse coding can predict primary visual cortex receptive field changes induced by abnormal visual input.