Humans and many animals make frequent saccades requiring coordinated movements of the eyes. When landing on the new fixation point, the eyes must converge accurately or double images will be perceived. We asked whether the visual system uses statistical regularities in the natural environment to aid eye alignment at the end of saccades. We measured the distribution of naturally occurring disparities in different parts of the visual field. The central tendency of the distributions was crossed (nearer than fixation) in the lower field and uncrossed (farther) in the upper field in male and female participants. It was uncrossed in the left and right fields. We also measured horizontal vergence after completion of vertical, horizontal, and obliq...
Humans make rapid movements of their eyes several times a second that enable them to examine objects...
AbstractAccurate saccadic and vergence eye movements towards selected visual targets are fundamental...
Humans actively explore their visual environment by moving their eyes. Precise coordination of the e...
Humans and many animals make frequent saccades requiring coordinated movements of the eyes. When lan...
during saccades. Simulations ofthese modelilead to a number of I. We recorded eye movements in four ...
Existing model for the generation of saccades predict fixed trajectories between start and landing p...
AbstractWe studied the effects of prism–induced disparity on static and intrasaccadic alignment in s...
Most eye movements in the real-world redirect the foveae to objects at a new depth and thus require ...
AbstractExisting models for the generation of saccades predict fixed trajectories between start and ...
Stabilization of images on the fovea during either fore/aft translation of a subject or fore/aft mov...
AbstractIn a natural environment, saccade and vergence eye movements shift gaze in different directi...
New-onset impairment of ocular motility will cause incomitant strabismus, i.e., a gaze-dependent ocu...
Depth perception in near viewing strongly relies on the interpretation of binocular retinal disparit...
If two targets are carefully aligned so that they fall along the cyclopean axis, the required eye mo...
AbstractThis paper describes the spatial trajectories of the binocular fixation point (the intersect...
Humans make rapid movements of their eyes several times a second that enable them to examine objects...
AbstractAccurate saccadic and vergence eye movements towards selected visual targets are fundamental...
Humans actively explore their visual environment by moving their eyes. Precise coordination of the e...
Humans and many animals make frequent saccades requiring coordinated movements of the eyes. When lan...
during saccades. Simulations ofthese modelilead to a number of I. We recorded eye movements in four ...
Existing model for the generation of saccades predict fixed trajectories between start and landing p...
AbstractWe studied the effects of prism–induced disparity on static and intrasaccadic alignment in s...
Most eye movements in the real-world redirect the foveae to objects at a new depth and thus require ...
AbstractExisting models for the generation of saccades predict fixed trajectories between start and ...
Stabilization of images on the fovea during either fore/aft translation of a subject or fore/aft mov...
AbstractIn a natural environment, saccade and vergence eye movements shift gaze in different directi...
New-onset impairment of ocular motility will cause incomitant strabismus, i.e., a gaze-dependent ocu...
Depth perception in near viewing strongly relies on the interpretation of binocular retinal disparit...
If two targets are carefully aligned so that they fall along the cyclopean axis, the required eye mo...
AbstractThis paper describes the spatial trajectories of the binocular fixation point (the intersect...
Humans make rapid movements of their eyes several times a second that enable them to examine objects...
AbstractAccurate saccadic and vergence eye movements towards selected visual targets are fundamental...
Humans actively explore their visual environment by moving their eyes. Precise coordination of the e...