P1-13: Color Induction from Surround Color under Interocular Suppression

P1-13: Color Induction from Surround Color under Interocular Suppression

The effect of surround colors on color appearance is known to subserve color constancy in humans, but how multiple mechanisms in the visual system are involved in this effect is controversial. We used an interocular-suppression technique to examine how the effect occurs at the level higher than the...

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Bibliographic Details
Published in:i-Perception (London) Vol. 3; no. 9; p. 627
Main Authors: Kuriki, Ichiro, Horiuchi, Koji, Tokunaga, Rumi, Matsumiya, Kazumichi, Shioiri, Satoshi
Format: Journal Article
Language:English
Published: London, England SAGE Publications 01-10-2012
SAGE Publishing
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Summary:The effect of surround colors on color appearance is known to subserve color constancy in humans, but how multiple mechanisms in the visual system are involved in this effect is controversial. We used an interocular-suppression technique to examine how the effect occurs at the level higher than the interaction of binocular information. A test color chip (1.7 × 1.7 deg visual angle) was presented in a static surround either with continuous-flash suppression in the dominant eye (CFS condition) to make the surround inperceptible or without the suppression (no-CFS condition). The surround stimulus was either a Mondrian or a uniform field of the same mean chromaticity. Stimuli were simulated OSA color chips under red, white (D65), or green illuminant color and were presented on a CRT display. Unique yellows were measured by asking the subjects to judge whether the test stimulus appeared reddish or greenish. Two sizes of the surround stimuli (widths of 1 deg and 4 deg) were used. Results showed significant shifts in unique yellow even under the CFS conditions, except for the 1 deg uniform-surround condition. Under the no-CFS condition, the shifts showed remarkable difference between subjects, except for the 4 deg Mondrian-surround condition. Interestingly, trends of the shifts showed high consistency within each subject, across conditions. These results indicate that mechanisms at both higher and lower levels than the neuronal site of interocular suppression are involved, and that the color shifts follow each subject's strategy in the higher-order mechanisms when only insufficient clues are available in the surround to estimate illuminant color.
ISSN:2041-6695
2041-6695
DOI:10.1068/if627