Disparity-evoked vergence is studied in stereograms showing one or two depth planes which are defined by isolated dots of varying density and contrast. Vergence position immediately after stimulus presentation was measured using dichoptic nonius lines. Since the stimulus was not visible after the onset of the vergence movement, the experiment accesses the initiation of vergence rather than its eventual result. In the unequivocal stimuli (one depth plane), elicited vergence tends to reduce disparity. Disparities of 0.5–1 deg are most effective which is in accordance with earlier findings. If two depth planes are presented, elicited vergence lies between the two planes, approaching the plane with higher dot density and/or dot contrast. In qua...
AbstractBinocular disparities applied to large-field patterns elicit vergence eye movements at ultra...
AbstractWith the broader use of stereoscopic displays, a flurry of research activity about the accom...
Small disparity stimuli applied to large random-dot patterns elicit machine-like vergence eye moveme...
Disparity-evoked vergence is studied in stereograms showing one or two depth planes which are define...
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...
Visual images from the two eyes are transmitted to the brain. Because the eyes are horizontally sepa...
AbstractWe investigated over what central area disparity in a random dot stereogram is integrated to...
One useful source of depth information available to the human nervous system is present in the horiz...
Vergence eye movements align the optical axes of our two eyes onto an object of interest, thus facil...
There has been a long-standing debate about the mechanisms underlying the perception of stereoscopic...
AbstractVergence eye movements were elicited in human subjects by applying disparities to square-wav...
AbstractVergence eye movements were elicited in human subjects at short latencies (∼70ms) by applyin...
There has been a long-standing debate about the mechanisms underlying the perception of stereoscopic...
AbstractBinocular disparities applied to large-field patterns elicit vergence eye movements at ultra...
AbstractWith the broader use of stereoscopic displays, a flurry of research activity about the accom...
Small disparity stimuli applied to large random-dot patterns elicit machine-like vergence eye moveme...
Disparity-evoked vergence is studied in stereograms showing one or two depth planes which are define...
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...
Visual images from the two eyes are transmitted to the brain. Because the eyes are horizontally sepa...
AbstractWe investigated over what central area disparity in a random dot stereogram is integrated to...
One useful source of depth information available to the human nervous system is present in the horiz...
Vergence eye movements align the optical axes of our two eyes onto an object of interest, thus facil...
There has been a long-standing debate about the mechanisms underlying the perception of stereoscopic...
AbstractVergence eye movements were elicited in human subjects by applying disparities to square-wav...
AbstractVergence eye movements were elicited in human subjects at short latencies (∼70ms) by applyin...
There has been a long-standing debate about the mechanisms underlying the perception of stereoscopic...
AbstractBinocular disparities applied to large-field patterns elicit vergence eye movements at ultra...
AbstractWith the broader use of stereoscopic displays, a flurry of research activity about the accom...
Small disparity stimuli applied to large random-dot patterns elicit machine-like vergence eye moveme...