AbstractDisplacement of a visual target during a saccadic eye movement is normally detected only at a high threshold, implying that high-quality information about target position is not stored in the nervous system across the saccade. We show that blanking the target for 50–300 msec after a saccade restores sensitivity to the displacement. With blanking, subjects reliably detect displacements as small as 0.33 deg across 6 deg eye movements, with correspondingly steep psychophysical functions. Performance with blanking in a fixation control is inferior, evidence for a saccadic enhancement of sensitivity to image displacement. If blanking is delayed so that the target is visible immediately after the saccade in its displaced position, perform...
International audiencePerception of our visual environment strongly depends on saccadic eye movement...
AbstractIn a display with a stationary and a translating object, subjects made a saccade towards one...
AbstractSaccades challenge visual perception since they induce large shifts of the image on the reti...
AbstractDisplacement of a visual target during a saccadic eye movement is normally detected only at ...
To establish a perceptually stable world despite the large retinal shifts caused by saccadic eye mov...
One of the more enduring mysteries of neuroscience is how the visual system constructs robust maps o...
Perceptual stability is facilitated by a decrease in visual sensitivity during rapid eye movements, ...
Retinal image displacements caused by saccadic eye movements are generally unnoticed. Recent theorie...
Perisaccadic compression of the perceived location of flashed visual stimuli toward a saccade target...
AbstractWhen multiple bars are briefly flashed near the saccadic goal on a visual reference just bef...
AbstractA study is reported in which eye movements were recorded when observers attempted to make a ...
AbstractThe threshold for detection of displacements of visual objects is higher during voluntary sa...
We studied the effects of visual references and the level of illumination on the localization of sti...
The human eye-movement system is equipped with a sophisticated updating mechanism that can adjust fo...
Saccades rapidly jerk the eye into new positions, yet we rarely experience the motion streaks impose...
International audiencePerception of our visual environment strongly depends on saccadic eye movement...
AbstractIn a display with a stationary and a translating object, subjects made a saccade towards one...
AbstractSaccades challenge visual perception since they induce large shifts of the image on the reti...
AbstractDisplacement of a visual target during a saccadic eye movement is normally detected only at ...
To establish a perceptually stable world despite the large retinal shifts caused by saccadic eye mov...
One of the more enduring mysteries of neuroscience is how the visual system constructs robust maps o...
Perceptual stability is facilitated by a decrease in visual sensitivity during rapid eye movements, ...
Retinal image displacements caused by saccadic eye movements are generally unnoticed. Recent theorie...
Perisaccadic compression of the perceived location of flashed visual stimuli toward a saccade target...
AbstractWhen multiple bars are briefly flashed near the saccadic goal on a visual reference just bef...
AbstractA study is reported in which eye movements were recorded when observers attempted to make a ...
AbstractThe threshold for detection of displacements of visual objects is higher during voluntary sa...
We studied the effects of visual references and the level of illumination on the localization of sti...
The human eye-movement system is equipped with a sophisticated updating mechanism that can adjust fo...
Saccades rapidly jerk the eye into new positions, yet we rarely experience the motion streaks impose...
International audiencePerception of our visual environment strongly depends on saccadic eye movement...
AbstractIn a display with a stationary and a translating object, subjects made a saccade towards one...
AbstractSaccades challenge visual perception since they induce large shifts of the image on the reti...