AbstractWe investigated the influence of temporal frequency on binocular depth perception in dynamic random-dot stereograms (DRS). We used (i) temporally correlated DRS in which a single pair of images alternated between two disparity values, and (ii) temporally uncorrelated DRS consisting of the repeated alternation of two uncorrelated image pairs each having one of two disparity values. Our results show that disparity-defined depth is judged differently in temporally correlated and temporally uncorrelated DRS above a temporal frequency of about 3 Hz. The results and simulations indicate that (i) above about 20Hz, the complete absence of stereomotion is caused by temporal integration of luminance, (ii) the difference in perceived depth in ...
Visual images from the two eyes are transmitted to the brain. Because the eyes are horizontally sepa...
AbstractTo investigate the spatial and temporal frequency tunings for stereopsis, we measured the co...
Abstract The binocular energy model of neural responses predicts that depth from binocular disparity...
AbstractWe investigated the influence of temporal frequency on binocular depth perception in dynamic...
We investigated the influence of temporal frequency on binocular depth perception in dynamic random-...
The goal of the research presented in this thesis was to investigate temporal properties of disparit...
In studies of the temporal flexibility of the stereoscopic system, it has been suggested that two di...
AbstractA novel type of dynamic random-dot stereogram (DRS) was used to study vergence movements and...
AbstractWe measured the percept of changing depth from changing disparity in stereograms composed of...
AbstractStereoscopic depth discrimination was investigated in crossed and uncrossed directions using...
AbstractWe investigated temporal properties of stereopsis at different spatial scales in dynamic ran...
The binocular energy model of neural responses predicts that depth from binocular disparity might be...
AbstractThree experiments examined the effects of image decorrelation on the stereoscopic detection ...
To encode binocular disparity, the visual system determines the image patches in one eye that yield ...
Depth can be perceived in random-dot stereograms in which dots are binocularly uncorrelated, in the ...
Visual images from the two eyes are transmitted to the brain. Because the eyes are horizontally sepa...
AbstractTo investigate the spatial and temporal frequency tunings for stereopsis, we measured the co...
Abstract The binocular energy model of neural responses predicts that depth from binocular disparity...
AbstractWe investigated the influence of temporal frequency on binocular depth perception in dynamic...
We investigated the influence of temporal frequency on binocular depth perception in dynamic random-...
The goal of the research presented in this thesis was to investigate temporal properties of disparit...
In studies of the temporal flexibility of the stereoscopic system, it has been suggested that two di...
AbstractA novel type of dynamic random-dot stereogram (DRS) was used to study vergence movements and...
AbstractWe measured the percept of changing depth from changing disparity in stereograms composed of...
AbstractStereoscopic depth discrimination was investigated in crossed and uncrossed directions using...
AbstractWe investigated temporal properties of stereopsis at different spatial scales in dynamic ran...
The binocular energy model of neural responses predicts that depth from binocular disparity might be...
AbstractThree experiments examined the effects of image decorrelation on the stereoscopic detection ...
To encode binocular disparity, the visual system determines the image patches in one eye that yield ...
Depth can be perceived in random-dot stereograms in which dots are binocularly uncorrelated, in the ...
Visual images from the two eyes are transmitted to the brain. Because the eyes are horizontally sepa...
AbstractTo investigate the spatial and temporal frequency tunings for stereopsis, we measured the co...
Abstract The binocular energy model of neural responses predicts that depth from binocular disparity...