Abstract
The light reflected from an object depends on its reflectance, the illumination, and the pose of the object within the scene. An observer is called lightness constant if the perceived reflectance (lightness) of achromatic objects stays the same despite variation in object-extrinsic factors such as illumination and pose. Here, we used a dissimilarity scaling task to measure lightness constancy as the intensity of the illuminant and the slant of test surfaces were varied. Across two experiments, we had observers rate the dissimilarity of flat grayscale test stimulus pairs. The test stimuli were real illuminated surfaces, not computer simulations. Each test stimulus was seen in its own illuminated chamber, with the two chambers viewed side by side. We varied test surface reflectance, chamber illumination intensity, and the slant of the test in relation to the single light source in each chamber. Data were analyzed using nonmetric multidimensional scaling. The data were well-described by a one-dimensional perceptual representation. This representation was consistent across observers, revealed partial lightness constancy with respect to a change in illumination intensity, and no lightness constancy with respect to changes in surface slant. An additional experiment using a matching procedure and the same stimulus set, however, revealed moderate constancy with respect to changes in surface slant. The difference in results between the two methods is interesting, but not understood.
Highlights
Lightness is the perceptual correlate of object surface reflectance
2.1.7 Results The dissimilarity ratings given by the observers for all test card–context pairs are tabulated for each observer/replication in the online supplemental material, for this and all experiments reported in this paper
Our first interest was to understand how well the dissimilarity data could be accounted for by a multidimensional scaling (MDS) model, in which each stimulus is represented as a point in a multidimensional space
Summary
Lightness is the perceptual correlate of object surface reflectance. Lightness provides useful information for object identification to the extent that lightness is stable across different scene contexts in which the object is viewed. The visual system can stabilize lightness with respect to such geometrical effects (Adelson, 1993; Allred & Brainard, 2009; Beck, 1965; Boyaci, Maloney, & Hersh, 2003; Gilchrist, 1980; Hochberg & Beck, 1954; Knill & Kersten, 1991; Mach, 1886; Pessoa, Mingolla, & Arend, 1996; Radonjić, Todorović, & Gilchrist, 2010; Ripamonti et al, 2004) This form of lightness constancy is not yet well-understood. There are hypotheses about the nature of such effects (Bloj et al, 2004; Gilchrist, 1980; Gilchrist, 2006), there is need for a larger empirical foundation to delineate the phenomena
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