AbstractWe investigated over what central area disparity in a random dot stereogram is integrated to stimulate an initial vergence response. Vergence was measured subjectively, with a forced choice dichoptic nonius vernier task following a brief (230 msec) stimulus presentation. Stimuli were random-dot stereograms showing a central circular disc of 12.5 min arc crossed retinal disparity in front of, and occluding, a same density fixation plane surround. The size of the disc was varied. All ten observers responded to the brief stimulus. Initial vergence increased with increasing disc diameter and, for nine out of ten subjects, reached a maximum with the disc ca 6 deg, suggesting this is the extent of the spatial integration region. Below 6 d...
ABSTRACT. This study investigated how the visual system detects a surface deviation from planar, ind...
SUMMARY Random-dot stereograms were found to be capable of producing fusional vergence amplitudes in...
When we track an object moving in depth, our eyes rotate in opposite directions. This type of “disju...
Visual images from the two eyes are transmitted to the brain. Because the eyes are horizontally sepa...
AbstractDisparity-evoked vergence is studied in stereograms showing one or two depth planes which ar...
Disparity-evoked vergence is studied in stereograms showing one or two depth planes which are define...
AbstractA novel type of dynamic random-dot stereogram (DRS) was used to study vergence movements and...
Disparity-evoked vergence is studied in stereograms showing one or two depth planes which are define...
One useful source of depth information available to the human nervous system is present in the horiz...
AbstractThis study examined the effects of stimulus size and eccentricity on reflex disparity vergen...
Summary. The ability of human beings to shift their vergence between multiple disparity stimuli was ...
AbstractSmall disparity stimuli applied to large random-dot patterns elicit machine-like vergence ey...
Small disparity stimuli applied to large random-dot patterns elicit machine-like vergence eye moveme...
AbstractWe measured the ability to fuse dichoptic images of a horizontal line alone or in the presen...
AbstractBinocular disparities applied to large-field patterns elicit vergence eye movements at ultra...
ABSTRACT. This study investigated how the visual system detects a surface deviation from planar, ind...
SUMMARY Random-dot stereograms were found to be capable of producing fusional vergence amplitudes in...
When we track an object moving in depth, our eyes rotate in opposite directions. This type of “disju...
Visual images from the two eyes are transmitted to the brain. Because the eyes are horizontally sepa...
AbstractDisparity-evoked vergence is studied in stereograms showing one or two depth planes which ar...
Disparity-evoked vergence is studied in stereograms showing one or two depth planes which are define...
AbstractA novel type of dynamic random-dot stereogram (DRS) was used to study vergence movements and...
Disparity-evoked vergence is studied in stereograms showing one or two depth planes which are define...
One useful source of depth information available to the human nervous system is present in the horiz...
AbstractThis study examined the effects of stimulus size and eccentricity on reflex disparity vergen...
Summary. The ability of human beings to shift their vergence between multiple disparity stimuli was ...
AbstractSmall disparity stimuli applied to large random-dot patterns elicit machine-like vergence ey...
Small disparity stimuli applied to large random-dot patterns elicit machine-like vergence eye moveme...
AbstractWe measured the ability to fuse dichoptic images of a horizontal line alone or in the presen...
AbstractBinocular disparities applied to large-field patterns elicit vergence eye movements at ultra...
ABSTRACT. This study investigated how the visual system detects a surface deviation from planar, ind...
SUMMARY Random-dot stereograms were found to be capable of producing fusional vergence amplitudes in...
When we track an object moving in depth, our eyes rotate in opposite directions. This type of “disju...