Naturally glossy: Gloss perception, illumination statistics, and tone mapping

Recognizing materials and understanding their properties is very useful-perhaps critical-in daily life as we encounter objects and plan our interactions with them. Visually derived estimates of material properties guide where and with what force we grasp an object. However, the estimation of materia...

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Bibliographic Details
Published in:Journal of vision (Charlottesville, Va.) Va.), 2018-12, Vol.18 (13), p.4-4
Main Authors: Adams, Wendy J, Kucukoglu, Gizem, Landy, Michael S, Mantiuk, Rafal K
Format: Article
Language:English
Subjects:
Contrast Sensitivity - physiology
Cues
Form Perception - physiology
Humans
Lighting
Photic Stimulation
Surface Properties
Visual Perception - physiology
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Summary:Recognizing materials and understanding their properties is very useful-perhaps critical-in daily life as we encounter objects and plan our interactions with them. Visually derived estimates of material properties guide where and with what force we grasp an object. However, the estimation of material properties, such as glossiness, is a classic ill-posed problem. Image cues that we rely on to estimate gloss are also affected by shape, illumination and, in visual displays, tone-mapping. Here, we focus on the latter two. We define some commonalities present in the structure of natural illumination, and determine whether manipulation of these natural "signatures" impedes gloss constancy. We manipulate the illumination field to violate statistical regularities of natural illumination, such that light comes from below, or the luminance distribution is no longer skewed. These manipulations result in errors in perceived gloss. Similarly, tone mapping has a dramatic effect on perceived gloss. However, when objects are viewed against an informative (rather than plain gray) background that reflects these manipulations, there are some improvements to gloss constancy: in particular, observers are far less susceptible to the effects of tone mapping when judging gloss. We suggest that observers are sensitive to some very simple statistics of the environment when judging gloss.
ISSN:1534-7362
1534-7362
DOI:10.1167/18.13.4