AbstractA novel type of dynamic random-dot stereogram (DRS) was used to study vergence movements and depth detection in response to temporal modulations of interocular correlation. Each DRS consisted of the repeated presentation of a pair of correlated images alternated by the presentation of a pair of uncorrelated images. The intervals of high (Tc) and low (Tu) correlation varied from 14 to 224 ms in steps of 14 ms. Depth detection and vergence responses behaved very different from each other as functions of Tc and Tu. The different behaviours suggest that depth and vergence most likely result from independent streams of disparity processing. It is speculated that magnocellular layers process disparities that drive vergence and that a parv...
Disparity-evoked vergence is studied in stereograms showing one or two depth planes which are define...
The small differences between the images formed in our left and right eyes are an important cue to t...
We systematically analyse the binocular disparity field under various eye, head and stimulus positi...
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 the influence of temporal frequency on binocular depth perception in dynamic...
AbstractDisparity-evoked vergence is studied in stereograms showing one or two depth planes which ar...
AbstractWe investigated temporal properties of stereopsis at different spatial scales in dynamic ran...
Vergence eye movements align the optical axes of our two eyes onto an object of interest, thus facil...
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...
The goal of the research presented in this thesis was to investigate temporal properties of disparit...
When we track an object moving in depth, our eyes rotate in opposite directions. This type of "disju...
AbstractVergence eye movements were elicited in human subjects at short latencies (∼70ms) by applyin...
The binocular energy model of neural responses predicts that depth from binocular disparity might be...
Disparity-evoked vergence is studied in stereograms showing one or two depth planes which are define...
The small differences between the images formed in our left and right eyes are an important cue to t...
We systematically analyse the binocular disparity field under various eye, head and stimulus positi...
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 the influence of temporal frequency on binocular depth perception in dynamic...
AbstractDisparity-evoked vergence is studied in stereograms showing one or two depth planes which ar...
AbstractWe investigated temporal properties of stereopsis at different spatial scales in dynamic ran...
Vergence eye movements align the optical axes of our two eyes onto an object of interest, thus facil...
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...
The goal of the research presented in this thesis was to investigate temporal properties of disparit...
When we track an object moving in depth, our eyes rotate in opposite directions. This type of "disju...
AbstractVergence eye movements were elicited in human subjects at short latencies (∼70ms) by applyin...
The binocular energy model of neural responses predicts that depth from binocular disparity might be...
Disparity-evoked vergence is studied in stereograms showing one or two depth planes which are define...
The small differences between the images formed in our left and right eyes are an important cue to t...
We systematically analyse the binocular disparity field under various eye, head and stimulus positi...