AbstractHow does the visual cortex combine information from both eyes to generate perceptual representations of object surfaces? Important clues about this process may be derived from data about the perceived brightness of surface regions under binocular viewing conditions, including data about binocular brightness summation in response to Ganzfelds, the U-shaped data of Fechner’s paradox that violates binocular brightness summation, and the effects of different combinations of monocular and binocular contours and surface luminance differences on threshold sensitivity to monocular flashes of light. How to reconcile these apparently contradictory data properties has been a severe challenge to previous models, and none has explained them all....
AbstractPhysiological, computational, and psychophysical studies of stereopsis have assumed that the...
AbstractWe introduce two new low-level computational models of brightness perception that account fo...
The human visual system has adapted to function in different lighting environments and responds to c...
AbstractHow does the visual cortex combine information from both eyes to generate perceptual represe...
How does the visual cortex combine information from both eyes to generate perceptual representations...
How docs the visual cortex combine information from both eyes to generate perceptual representations...
AbstractThe luminance contrast at the borders of a surface strongly influences surface’s apparent br...
The luminance contrast at the borders of a surface strongly influences surface’s apparent brightness...
How does the human brain combine information across the eyes? It has been known for many years that ...
AbstractIn the natural world, a binocular discrepancy of luminance can signal a glossy surface. Usin...
AbstractWe studied the rules by which visual responses to luminous targets are combined across the t...
A physically identical shade of gray on a black background appears lighter than on a white backgroun...
We studied the rules by which visual responses to luminous targets are combined across the two eyes....
In the phenomenon of simultaneous brightness contrast, two patches, one on a dark background and the...
This article develops a neural model of how the visual system processes natural images under variabl...
AbstractPhysiological, computational, and psychophysical studies of stereopsis have assumed that the...
AbstractWe introduce two new low-level computational models of brightness perception that account fo...
The human visual system has adapted to function in different lighting environments and responds to c...
AbstractHow does the visual cortex combine information from both eyes to generate perceptual represe...
How does the visual cortex combine information from both eyes to generate perceptual representations...
How docs the visual cortex combine information from both eyes to generate perceptual representations...
AbstractThe luminance contrast at the borders of a surface strongly influences surface’s apparent br...
The luminance contrast at the borders of a surface strongly influences surface’s apparent brightness...
How does the human brain combine information across the eyes? It has been known for many years that ...
AbstractIn the natural world, a binocular discrepancy of luminance can signal a glossy surface. Usin...
AbstractWe studied the rules by which visual responses to luminous targets are combined across the t...
A physically identical shade of gray on a black background appears lighter than on a white backgroun...
We studied the rules by which visual responses to luminous targets are combined across the two eyes....
In the phenomenon of simultaneous brightness contrast, two patches, one on a dark background and the...
This article develops a neural model of how the visual system processes natural images under variabl...
AbstractPhysiological, computational, and psychophysical studies of stereopsis have assumed that the...
AbstractWe introduce two new low-level computational models of brightness perception that account fo...
The human visual system has adapted to function in different lighting environments and responds to c...