AbstractA stationary monocular stimulus appears to move concomitantly with lateral head movements when it is embedded in a stereogram representing two front-facing rectangular areas, one above the other at two different distances. In Experiment 1, we found that the extent of perceived motion of the monocular stimulus covaried with the amplitude of head movement and the disparity between the two rectangular areas (composed of random dots). In Experiment 2, we found that the extent of perceived motion of the monocular stimulus was reduced compared to that in Experiment 1 when the rectangular areas were defined only by an outline rather than by random dots. These results are discussed using the hypothesis that a monocular stimulus takes on fea...
AbstractWhen counterphase spatio-temporal flicker is presented to the left and right eye continuous ...
Two important tasks that the visual system has to perform are determining the direction of motion an...
AbstractUnder a variety of conditions, motion in depth from binocular cues is harder to detect than ...
AbstractWe examined the phenomenon in which two physically aligned monocular stimuli appear to be no...
Under usual circumstances, motion in depth is associated with conventional stereomotion cues: a chan...
<p>(A) In the critical dichoptic condition, two monocular sets of arrowheads with the same arrowhead...
Depth perception from motion parallax has been investigated with right-and-left head movement. From ...
AbstractWhether position and orientation shifts induced by monocular context also act as a disparity...
In several psychophysical functions, thresholds may be lower when the test is performed binocularly ...
We have recently suggested that the brain uses its sensitivity to optic flow in order to parse retin...
Until recently, it was considered necessary for features in the two eyes to be matched before the ev...
AbstractWe report that the perception of three-dimensional structure from monocular two-dimensional ...
AbstractWe have recently suggested that the brain uses its sensitivity to optic flow in order to par...
AbstractThis study investigated the human ability to discriminate the motion direction of sequential...
When counterphase spatio-temporal flicker is presented to the left and right eye continuous directio...
AbstractWhen counterphase spatio-temporal flicker is presented to the left and right eye continuous ...
Two important tasks that the visual system has to perform are determining the direction of motion an...
AbstractUnder a variety of conditions, motion in depth from binocular cues is harder to detect than ...
AbstractWe examined the phenomenon in which two physically aligned monocular stimuli appear to be no...
Under usual circumstances, motion in depth is associated with conventional stereomotion cues: a chan...
<p>(A) In the critical dichoptic condition, two monocular sets of arrowheads with the same arrowhead...
Depth perception from motion parallax has been investigated with right-and-left head movement. From ...
AbstractWhether position and orientation shifts induced by monocular context also act as a disparity...
In several psychophysical functions, thresholds may be lower when the test is performed binocularly ...
We have recently suggested that the brain uses its sensitivity to optic flow in order to parse retin...
Until recently, it was considered necessary for features in the two eyes to be matched before the ev...
AbstractWe report that the perception of three-dimensional structure from monocular two-dimensional ...
AbstractWe have recently suggested that the brain uses its sensitivity to optic flow in order to par...
AbstractThis study investigated the human ability to discriminate the motion direction of sequential...
When counterphase spatio-temporal flicker is presented to the left and right eye continuous directio...
AbstractWhen counterphase spatio-temporal flicker is presented to the left and right eye continuous ...
Two important tasks that the visual system has to perform are determining the direction of motion an...
AbstractUnder a variety of conditions, motion in depth from binocular cues is harder to detect than ...