Sensitivity to modulations of luminance and contrast in visual white noise: separate mechanisms with similar behaviour

Human vision can detect spatiotemporal information conveyed by first-order modulations of luminance and by second-order, non-Fourier modulations of image contrast. Models for second-order motion have suggested two filtering stages separated by a rectifying nonlinearity. We explore here the encoding...

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Veröffentlicht in:	Vision research (Oxford) 1999-08, Vol.39 (16), p.2697-2716
Hauptverfasser:	Schofield, Andrew J., Georgeson, Mark A.
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Sprache:	eng
Schlagworte:	Biological and medical sciences Contrast Contrast Sensitivity - physiology Cues Facilitation Fundamental and applied biological sciences. Psychology Humans Light Luminance Male Masking Mathematics Mixed detection Models, Biological Noise Pattern Recognition, Visual - physiology Perception Psychology. Psychoanalysis. Psychiatry Psychology. Psychophysiology Sensitivity Sensory Thresholds - physiology Spatial modulation Vision
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creator	Schofield, Andrew J. Georgeson, Mark A.
description	Human vision can detect spatiotemporal information conveyed by first-order modulations of luminance and by second-order, non-Fourier modulations of image contrast. Models for second-order motion have suggested two filtering stages separated by a rectifying nonlinearity. We explore here the encoding of stationary first-order and second-order gratings, and their interaction. Stimuli consisted of 2-D binary, broad-band, static, visual noise sinusoidally modulated in luminance (LM, first-order) or contrast (CM, second-order). Modulation thresholds were measured in a two-interval forced-choice staircase procedure. Sensitivity curves for LM and CM had similar shape as a function of spatial frequency, and as a function of the size of a circular Gaussian blob of modulation. Weak background gratings present in both intervals produced order-specific facilitation: LM background facilitated LM detection (the dipper function) and CM facilitated CM detection. LM did not facilitate CM, nor vice-versa, neither in-phase nor out-of-phase, and this is strong evidence that LM and CM are detected via separate mechanisms. This conclusion was further supported by an experiment on the detection of LM/CM mixtures. From a general mathematical model and a specific computer simulation we conclude that a single mechanism sensitive to both LM and CM cannot predict the pattern of results for mixtures, while a model containing separate pathways for LM and CM, followed by energy summation, does so successfully and is quantitatively consistent with the finding of order-specific facilitation.
doi_str_mv	10.1016/S0042-6989(98)00284-3
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Models for second-order motion have suggested two filtering stages separated by a rectifying nonlinearity. We explore here the encoding of stationary first-order and second-order gratings, and their interaction. Stimuli consisted of 2-D binary, broad-band, static, visual noise sinusoidally modulated in luminance (LM, first-order) or contrast (CM, second-order). Modulation thresholds were measured in a two-interval forced-choice staircase procedure. Sensitivity curves for LM and CM had similar shape as a function of spatial frequency, and as a function of the size of a circular Gaussian blob of modulation. Weak background gratings present in both intervals produced order-specific facilitation: LM background facilitated LM detection (the dipper function) and CM facilitated CM detection. LM did not facilitate CM, nor vice-versa, neither in-phase nor out-of-phase, and this is strong evidence that LM and CM are detected via separate mechanisms. This conclusion was further supported by an experiment on the detection of LM/CM mixtures. From a general mathematical model and a specific computer simulation we conclude that a single mechanism sensitive to both LM and CM cannot predict the pattern of results for mixtures, while a model containing separate pathways for LM and CM, followed by energy summation, does so successfully and is quantitatively consistent with the finding of order-specific facilitation.</description><subject>Biological and medical sciences</subject><subject>Contrast</subject><subject>Contrast Sensitivity - physiology</subject><subject>Cues</subject><subject>Facilitation</subject><subject>Fundamental and applied biological sciences. 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subjects	Biological and medical sciences Contrast Contrast Sensitivity - physiology Cues Facilitation Fundamental and applied biological sciences. Psychology Humans Light Luminance Male Masking Mathematics Mixed detection Models, Biological Noise Pattern Recognition, Visual - physiology Perception Psychology. Psychoanalysis. Psychiatry Psychology. Psychophysiology Sensitivity Sensory Thresholds - physiology Spatial modulation Vision
title	Sensitivity to modulations of luminance and contrast in visual white noise: separate mechanisms with similar behaviour
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