Open AccessLow levels of specularity support operational color constancy, particularly when surface and illumination geometry can be inferred
Author(s) -
Rob Lee,
Hannah E. Smithson
Publication year - 2016
Publication title -
journal of the optical society of america a
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.803
H-Index - 158
eISSN - 1520-8532
pISSN - 1084-7529
DOI - 10.1364/josaa.33.00a306
Subject(s) - specularity , standard illuminant , color constancy , surface (topology) , artificial intelligence , computer vision , optics , camouflage , computer science , chromatic scale , perception , chromatic adaptation , subjective constancy , mathematics , geometry , specular reflection , physics , image (mathematics) , psychology , neuroscience
We tested whether surface specularity alone supports operational color constancy-the ability to discriminate changes in illumination or reflectance. Observers viewed short animations of illuminant or reflectance changes in rendered scenes containing a single spherical surface and were asked to classify the change. Performance improved with increasing specularity, as predicted from regularities in chromatic statistics. Peak performance was impaired by spatial rearrangements of image pixels that disrupted the perception of illuminated surfaces but was maintained with increased surface complexity. The characteristic chromatic transformations that are available with nonzero specularity are useful for operational color constancy, particularly if accompanied by appropriate perceptual organization.
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