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Probing the human stereoscopic system with reverse correlation

Peter Neri (), Andrew J. Parker and Colin Blakemore
Additional contact information
Peter Neri: University Laboratory of Physiology
Andrew J. Parker: University Laboratory of Physiology
Colin Blakemore: University Laboratory of Physiology

Nature, 1999, vol. 401, issue 6754, 695-698

Abstract: Abstract Our two eyes obtain slightly different views of the world. The resulting differences in the two retinal images, called binocular disparities, provide us with a stereoscopic sense of depth1. The primary visual cortex (V1) contains neurons that are selective for the disparity2,3,4 of individual elements in an image, but this information must be further analysed to complete the stereoscopic process5,6. Here we apply the psychophysical technique of reverse correlation7 to investigate disparity processing in human vision. Observers viewed binocular random-dot patterns, with ‘signal’ dots in a specific depth plane plus ‘noise’ dots with randomly assigned disparities. By examining the correlation between the observers' ability to detect the plane and the particular sample of ‘noise’ disparities presented on each trial, we revealed detection ‘filters’, whose disparity selectivity was remarkably similar to that of individual neurons in monkey V1. Moreover, if the noise dots were of opposite contrast in the two eyes, the tuning inverted, just like the response patterns of V1 neurons5,6. Reverse correlation appears to probe disparity processing at the earliest stages of binocular combination, prior to the generation of a full stereoscopic depth percept.

Date: 1999
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DOI: 10.1038/44409

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