1995
DOI: 10.1016/0042-6989(94)00172-i
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What's constant in contrast constancy? The effects of scaling on the perceived contrast of bandpass patterns

Abstract: "Contrast constancy" refers to the ability to perceive objects as maintaining a constant contrast independent of size or distance. When tested with high contrast sinusoidal gratings, contrast constancy has been shown to hold for a wide range of spatial frequencies, suggesting that sensitivity is constant across the spectrum at suprathreshold. In this study, we show that contrast constancy also holds for relatively broadband patterns. We describe how the frequency spectra of such functions change as the pattern… Show more

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Cited by 110 publications
(105 citation statements)
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“…Finally, the rod system is processed through a distinct set of transducers to represent its unique spatial characteristics. At high contrast levels (> 5%) the transducer functions converge to a common square-root form to properly represent perceived contrast constancy [1] and introduce a compressive nonlinearity typically found in masking experiments and color appearance models. The contrast transducers used in our model are illustrated in Figure 3.…”
Section: Orientation Filtering Contrast Transducers and Thresholdingmentioning
confidence: 99%
“…Finally, the rod system is processed through a distinct set of transducers to represent its unique spatial characteristics. At high contrast levels (> 5%) the transducer functions converge to a common square-root form to properly represent perceived contrast constancy [1] and introduce a compressive nonlinearity typically found in masking experiments and color appearance models. The contrast transducers used in our model are illustrated in Figure 3.…”
Section: Orientation Filtering Contrast Transducers and Thresholdingmentioning
confidence: 99%
“…Research on visual illusions (see, e.g., Armstrong & Marks, 1997;Chacón, 2004;Foley & McCourt, 1985;Jordan & Schiano, 1986) has often used discrimination tasks to provide objective data (i.e., beyond the initial consensus of introspections), indicating that the illusion actually occurs when the PSE is located at the point at which standard and comparison stimuli have the same magnitude along the dimension in which they are compared. Similar evidence that the PSE and the POE do not generally coincide comes also from other common studies involving nonillusory standard and comparison stimuli that differ along noncompared dimensions, like windowed sinusoidal gratings of different orientation, mean luminance, direction of motion, spatial frequency, size, or spatial phase whose contrast is to be compared (see, e.g., Brady & Field, 1995; García-Pérez know whether the functions S and T are identical even when test and standard stimuli are nominally identical in all respects (see our earlier discussion of temporary sensory impairment). In these conditions, the only valid conclusion from Ulrich and Vorberg's analysis is that 2AFC (x) .5 at some point x, which may or may not be the point x s; then, the PSE may or may not lie at the POE.…”
Section: Validity Of the Constraint Pse Poementioning
confidence: 66%
“…This means that its energy spectrum needs to follow a 1͞f 2 slope. 25 Examples of a RDP and the same pattern scaled in the Fourier domain by a 1͞f transfer function to yield what will be termed here a fractal-noise pattern (FNP) (with a 1͞f 2 energy spectrum) are shown in Fig. 1.…”
Section: Methodsmentioning
confidence: 99%