Binocular Disparity Processing with Opposite-Contrast Stimuli

Author:

Cogan Alexander I1,Kontsevich Leonid L1,Lomakin Alex J1,Halpern D Lynn2,Blake Randolph3

Affiliation:

1. The Smith-Kettlewell Eye Research Institute, 2232 Webster Street, San Francisco, CA 94114, USA

2. Department of Psychology, Brandeis University, Waltham, MA 02154, USA

3. Department of Psychology, Vanderbilt University, Nashville, TN 37240, USA

Abstract

Stereoscopic perception of relative depth with reversed-contrast half images differs in several important respects from stereopsis with matched-contrast half images. Thus, reversed-contrast images show no correlated shift in visual direction, indicating that the sensory-fusion mechanism ignores opposite-sign edges; one experiment addressed this aspect of the problem. Mainly, this was a quantitative study of opposite-contrast stereopsis, in which stereoacuity was measured as a function of bar width by means of narrow-band stimuli. Acuity was about an order of magnitude worse for reversed-contrast than for matched stimuli, but the ability to see valid (disparity-dependent) depth was not altogether lost even with wide (1 cycle deg−1) reversed-contrast bars. It is generally believed that depth with opposite-contrast stimuli is mediated by interaction between binocular stimuli components that have the same sign of contrast. Perceived depth was measured as a function of disparity and thus one of the predictions of that ‘same-sign hypothesis’ was tested experimentally; then, the magnitude of same-sign components was manipulated within the reversed-contrast stimuli, and thus the general prediction of the same-sign hypothesis was tested. The results show conclusively that the same-sign hypothesis cannot account for opposite-contrast stereopsis; its mechanism remains unknown.

Publisher

SAGE Publications

Subject

Artificial Intelligence,Sensory Systems,Experimental and Cognitive Psychology,Ophthalmology

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