Topics
WhiteColour
critical roleWork
It has been proposed that both White's effect and the grating induction effect are examples of brightness induction phenomena modeled in terms of local spatial filters. We have shown that for these illusions to occur it is necessary that the luminance of the gray target elements falls between that of the inducing stripes of the square-wave pattern. This critical role of luminance relationships is not predicted by existing models of these illusions. White's effect Brightness induction Grating inductio
The variation between the actual and perceived lightness of a stimulus has strong dependency on its ...
Failure of isotropic difference-of-Gaussian (DOG) models of receptive field (RF) to explain brightne...
AbstractBrightness (perceived intensity) and lightness (perceived reflectance) matching were investi...
AbstractIt has been proposed that both White's effect and the grating induction effect are examples ...
AbstractBrightness induction refers to a class of visual illusions where the perceived intensity of ...
AbstractThe luminance of a squarewave grating was modulated in a manner such that every other stripe...
AbstractBlakeslee and McCourt ((1997) Vision Research, 37, 2849–2869) demonstrated that a multiscale...
Thesis (Ph.D.)--University of Washington, 2017-08Bright contexts surrounding achromatic stimuli gene...
AbstractThe experiments explore whether the mechanism(s) underlying grating induction (GI) can also ...
AbstractBrightness induction includes both contrast and assimilations effects. Brightness contrast o...
AbstractThe White effect [Perception 8 (1979) 413] cannot be simply explained as due to either brigh...
AbstractWe introduce two new low-level computational models of brightness perception that account fo...
The specific grey shades in a visual scene can be derived from relative luminance values only when a...
AbstractThe luminance of a squarewave grating was modulated in a manner such that every other stripe...
AbstractGrating induction causes a homogeneous test field surrounded by sinewave gratings to possess...
The variation between the actual and perceived lightness of a stimulus has strong dependency on its ...
Failure of isotropic difference-of-Gaussian (DOG) models of receptive field (RF) to explain brightne...
AbstractBrightness (perceived intensity) and lightness (perceived reflectance) matching were investi...
AbstractIt has been proposed that both White's effect and the grating induction effect are examples ...
AbstractBrightness induction refers to a class of visual illusions where the perceived intensity of ...
AbstractThe luminance of a squarewave grating was modulated in a manner such that every other stripe...
AbstractBlakeslee and McCourt ((1997) Vision Research, 37, 2849–2869) demonstrated that a multiscale...
Thesis (Ph.D.)--University of Washington, 2017-08Bright contexts surrounding achromatic stimuli gene...
AbstractThe experiments explore whether the mechanism(s) underlying grating induction (GI) can also ...
AbstractBrightness induction includes both contrast and assimilations effects. Brightness contrast o...
AbstractThe White effect [Perception 8 (1979) 413] cannot be simply explained as due to either brigh...
AbstractWe introduce two new low-level computational models of brightness perception that account fo...
The specific grey shades in a visual scene can be derived from relative luminance values only when a...
AbstractThe luminance of a squarewave grating was modulated in a manner such that every other stripe...
AbstractGrating induction causes a homogeneous test field surrounded by sinewave gratings to possess...
The variation between the actual and perceived lightness of a stimulus has strong dependency on its ...
Failure of isotropic difference-of-Gaussian (DOG) models of receptive field (RF) to explain brightne...
AbstractBrightness (perceived intensity) and lightness (perceived reflectance) matching were investi...
Add to ORKG