How Many Maps are there in Visual Cortex?

doi:10.1093/cercor/10.7.633

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Cerebral Cortex, Vol. 10, No. 7, 633-643, July 2000
© 2000 Oxford University Press

How Many Maps are there in Visual Cortex?

Nicholas V. Swindale

Department of Ophthalmology, University of British Columbia, 2550 Willow Street, Vancouver, BC, Canada V5Z 3N9

In addition to a topographic map of the retina, mammalian visualcortex contains superimposed, orderly periodic maps of featuressuch as orientation, eye dominance, direction of motion andspatial frequency. There is evidence that these maps are overlaidso as to ensure that all combinations of the different parametersare represented as uniformly as possible across visual space.However, it is unknown to what extent geometrical factors limitthe number of periodic maps which might simultaneously be present,given this constraint. This paper attempts to investigate thequestion by using a dimension reduction model to generate mapsof simple, many- dimensional feature spaces onto a model two-dimensionalcortex. The feature space included a model retina, plus N binaryvariables, corresponding to parameters such as ocular dominanceor spatial frequency. The results suggest that geometrical factorsdo not sharply limit the ability of the cortex to representcombinations of parameters in spatially superimposed maps ofsimilar periodicity. Considerations of uniform coverage suggestan upper limit of six or seven maps. A higher limit, of aboutnine or ten, may be imposed by the numbers of neurons (or minicolumns)available to represent each of 2^N features within a given smallregion of cortex.

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