One of the greatest challenges in visual neuroscience is that of linking neural activity with perceptual experience. In the case of binocular depth perception, important insights have been achieved through comparing neural responses and the perception of depth, for carefully selected stimuli. One of the most important types of stimulus that has been used here is the anti-correlated random dot stereogram (ACRDS). In these stimuli, the contrast polarity of one half of a stereoscopic image is reversed. While neurons in cortical area V1 respond reliably to the binocular disparities in ACRDS, they do not create a sensation of depth. This discrepancy has been used to argue that depth perception must rely on neural activity elsewhere in the brain....
Conventional models of binocular depth perception (stereopsis) hypothesise that depth perception res...
We investigated the influence of temporal frequency on binocular depth perception in dynamic random-...
Random-dot stereograms were used to measure aftereffects in the perception of binocular depth. Obser...
One of the greatest challenges in visual neuroscience is that of linking neural activity with percep...
One of the greatest challenges in visual neuroscience is that of linking neural activity with percep...
Abstract The binocular energy model of neural responses predicts that depth from binocular disparity...
The binocular energy model of neural responses predicts that depth from binocular disparity might be...
In a random dot stereogram (RDS), object surfaces in a three-dimensional scene are generated by imag...
In a random-dot stereogram (RDS), depth percepts of object surfaces are generated using left-eye and...
Recent physiological observations in which stimuli with opposite contrast signs in the two eyes have...
In a random-dot stereogram, the percept of object surfaces in a three-dimensional scene is generated...
The small differences between the images formed in our left and right eyes are an important cue to t...
In a random-dot stereogram (RDS), the percept of object surfaces in a three-dimensional scene is gen...
In contrast-reversed random-dot stereograms (CRRDSs), a black dot in one eye matches a white dot in ...
To perceive the visual world as three-dimensional, the brain has to reconstruct spatial structure fr...
Conventional models of binocular depth perception (stereopsis) hypothesise that depth perception res...
We investigated the influence of temporal frequency on binocular depth perception in dynamic random-...
Random-dot stereograms were used to measure aftereffects in the perception of binocular depth. Obser...
One of the greatest challenges in visual neuroscience is that of linking neural activity with percep...
One of the greatest challenges in visual neuroscience is that of linking neural activity with percep...
Abstract The binocular energy model of neural responses predicts that depth from binocular disparity...
The binocular energy model of neural responses predicts that depth from binocular disparity might be...
In a random dot stereogram (RDS), object surfaces in a three-dimensional scene are generated by imag...
In a random-dot stereogram (RDS), depth percepts of object surfaces are generated using left-eye and...
Recent physiological observations in which stimuli with opposite contrast signs in the two eyes have...
In a random-dot stereogram, the percept of object surfaces in a three-dimensional scene is generated...
The small differences between the images formed in our left and right eyes are an important cue to t...
In a random-dot stereogram (RDS), the percept of object surfaces in a three-dimensional scene is gen...
In contrast-reversed random-dot stereograms (CRRDSs), a black dot in one eye matches a white dot in ...
To perceive the visual world as three-dimensional, the brain has to reconstruct spatial structure fr...
Conventional models of binocular depth perception (stereopsis) hypothesise that depth perception res...
We investigated the influence of temporal frequency on binocular depth perception in dynamic random-...
Random-dot stereograms were used to measure aftereffects in the perception of binocular depth. Obser...