Binocular disparity signals can provide high acuity information about the positions of points, surfaces, and objects in three-dimensional space. For some stimulus configurations, however, perceived depth is known to be affected by surface organization. Here we examine the effects of surface continuity and discontinuity on such surface organization biases. Participants were presented with a series of random dot surfaces, each with a cumulative Gaussian form in depth. Surfaces varied in the steepness of disparity gradients, via manipulation of the standard deviation of the Gaussian, and/or the presence of differing forms of surface discontinuity. By varying the relative disparity between surface edges, we measured the points of subjective equ...
AbstractBinocular disparity is a powerful cue for the perception of depth. The accuracy with which o...
Our perception of depth is substantially enhanced by the fact that we have binocular vision. This pr...
SummaryEstimating depth from binocular disparity is extremely precise, and the cue does not depend o...
Binocular disparity signals can provide high acuity information about the positions of points, surfa...
Binocular disparity signals are highly informative about the three-dimensional structure of visual s...
AbstractEarlier studies showed that the disparity with respect to other visible points could not exp...
Binocular disparity is an important cue to depth, allowing us to make very fine discriminations of t...
AbstractWith isolated binocular targets, the best depth discrimination is found in the fixation plan...
AbstractLocal disparity signals must interact in visual cortex to represent boundaries and surfaces ...
AbstractStereoacuity thresholds have been shown to depend on the disparity of a point with respect t...
Visual images from the two eyes are transmitted to the brain. Because the eyes are horizontally sepa...
AbstractIn stereo vision, regions with ambiguous or unspecified disparity can acquire perceived dept...
AbstractThe perceived depth of features is known to be affected by the presence of a slanted referen...
Earlier studies showed that the disparity with respect to other visible points could not explain ste...
International audienceHuman visual system takes advantage of different cues simultaneously to provid...
AbstractBinocular disparity is a powerful cue for the perception of depth. The accuracy with which o...
Our perception of depth is substantially enhanced by the fact that we have binocular vision. This pr...
SummaryEstimating depth from binocular disparity is extremely precise, and the cue does not depend o...
Binocular disparity signals can provide high acuity information about the positions of points, surfa...
Binocular disparity signals are highly informative about the three-dimensional structure of visual s...
AbstractEarlier studies showed that the disparity with respect to other visible points could not exp...
Binocular disparity is an important cue to depth, allowing us to make very fine discriminations of t...
AbstractWith isolated binocular targets, the best depth discrimination is found in the fixation plan...
AbstractLocal disparity signals must interact in visual cortex to represent boundaries and surfaces ...
AbstractStereoacuity thresholds have been shown to depend on the disparity of a point with respect t...
Visual images from the two eyes are transmitted to the brain. Because the eyes are horizontally sepa...
AbstractIn stereo vision, regions with ambiguous or unspecified disparity can acquire perceived dept...
AbstractThe perceived depth of features is known to be affected by the presence of a slanted referen...
Earlier studies showed that the disparity with respect to other visible points could not explain ste...
International audienceHuman visual system takes advantage of different cues simultaneously to provid...
AbstractBinocular disparity is a powerful cue for the perception of depth. The accuracy with which o...
Our perception of depth is substantially enhanced by the fact that we have binocular vision. This pr...
SummaryEstimating depth from binocular disparity is extremely precise, and the cue does not depend o...