In studies of the temporal flexibility of the stereoscopic system, it has been suggested that two different processes of binocular depth perception could be responsible for the flexibility: tolerance for interocular delays and temporal integration of correlation. None has investigated the relationship between tolerance for delays and temporal integration mechanisms and none has revealed which mechanism is responsible for depth perception in dynamic random-dot stereograms. We address these questions in the present study. Across five experiments, we investigated the temporal properties of stereopsis by varying interocular correlation as a function of time in controlled ways. We presented different types of dynamic random-dot stereograms, each...
Depth can be perceived in random-dot stereograms in which dots are binocularly uncorrelated, in the ...
AbstractWe measured the percept of changing depth from changing disparity in stereograms composed of...
AbstractWe measured depth from interocular delay (The Pulfrich effect) using a dynamic random-dot pa...
In studies of the temporal flexibility of the stereoscopic system, it has been suggested that two di...
The goal of the research presented in this thesis was to investigate temporal properties of disparit...
We investigated the influence of temporal frequency on binocular depth perception in dynamic random-...
AbstractWe investigated the influence of temporal frequency on binocular depth perception in dynamic...
AbstractWe investigated temporal properties of stereopsis at different spatial scales in dynamic ran...
We investigated temporal properties of stereopsis at different spatial scales in dynamic random-dot ...
To encode binocular disparity, the visual system determines the image patches in one eye that yield ...
AbstractA novel type of dynamic random-dot stereogram (DRS) was used to study vergence movements and...
We measured sensitivity to binocular correlation in dynamic random-dot stereograms that defined movi...
AbstractWe measured sensitivity to binocular correlation in dynamic random-dot stereograms that defi...
Conventional models of binocular depth perception (stereopsis) hypothesise that depth perception res...
AbstractWith normal binocular vision, maximal stereoacuity requires an extended viewing duration, bu...
Depth can be perceived in random-dot stereograms in which dots are binocularly uncorrelated, in the ...
AbstractWe measured the percept of changing depth from changing disparity in stereograms composed of...
AbstractWe measured depth from interocular delay (The Pulfrich effect) using a dynamic random-dot pa...
In studies of the temporal flexibility of the stereoscopic system, it has been suggested that two di...
The goal of the research presented in this thesis was to investigate temporal properties of disparit...
We investigated the influence of temporal frequency on binocular depth perception in dynamic random-...
AbstractWe investigated the influence of temporal frequency on binocular depth perception in dynamic...
AbstractWe investigated temporal properties of stereopsis at different spatial scales in dynamic ran...
We investigated temporal properties of stereopsis at different spatial scales in dynamic random-dot ...
To encode binocular disparity, the visual system determines the image patches in one eye that yield ...
AbstractA novel type of dynamic random-dot stereogram (DRS) was used to study vergence movements and...
We measured sensitivity to binocular correlation in dynamic random-dot stereograms that defined movi...
AbstractWe measured sensitivity to binocular correlation in dynamic random-dot stereograms that defi...
Conventional models of binocular depth perception (stereopsis) hypothesise that depth perception res...
AbstractWith normal binocular vision, maximal stereoacuity requires an extended viewing duration, bu...
Depth can be perceived in random-dot stereograms in which dots are binocularly uncorrelated, in the ...
AbstractWe measured the percept of changing depth from changing disparity in stereograms composed of...
AbstractWe measured depth from interocular delay (The Pulfrich effect) using a dynamic random-dot pa...