One of the more enduring mysteries of neuroscience is how the visual system constructs robust maps of the world that remain stable in the face of frequent eye movements. Here we show that encoding the position of objects in external space is a relatively slow process, building up over hundreds of milliseconds. We display targets to which human subjects saccade after a variable preview duration. As they saccade, the target is displaced leftwards or rightwards, and subjects report the displacement direction. When subjects saccade to targets without delay, sensitivity is poor; but if the target is viewed for 300-500 ms before saccading, sensitivity is similar to that during fixation with a strong visual mask to dampen transients. These results...
When visual objects shift rapidly across the retina, they produce motion blur. Intra-saccadic visual...
Accurately perceiving the locations of objects is essential for successfully interacting with our en...
Perisaccadic compression of the perceived location of flashed visual stimuli toward a saccade target...
AbstractDisplacement of a visual target during a saccadic eye movement is normally detected only at ...
AbstractTo interact rapidly and effectively with our environment, our brain needs access to a dynami...
Saccades are made thousands of times a day and are the principal means of localizing objects in our ...
Abstract: Why and how people perceive the visual world as continuous and stable, despite the gross c...
The human eye-movement system is equipped with a sophisticated updating mechanism that can adjust fo...
To establish a perceptually stable world despite the large retinal shifts caused by saccadic eye mov...
Abstract Saccades are made thousands of times a day and are the principal means of localizing object...
Objects flashed briefly around the time of a saccadic eye movement are grossly mislocalized by human...
Retinal image displacements caused by saccadic eye movements are generally unnoticed. Recent theorie...
Every time we make a saccade we form a prediction about where objects are going to be when the eye l...
International audienceSaccadic eye movements cause displacements of the image of the visual world pr...
AbstractWhen multiple bars are briefly flashed near the saccadic goal on a visual reference just bef...
When visual objects shift rapidly across the retina, they produce motion blur. Intra-saccadic visual...
Accurately perceiving the locations of objects is essential for successfully interacting with our en...
Perisaccadic compression of the perceived location of flashed visual stimuli toward a saccade target...
AbstractDisplacement of a visual target during a saccadic eye movement is normally detected only at ...
AbstractTo interact rapidly and effectively with our environment, our brain needs access to a dynami...
Saccades are made thousands of times a day and are the principal means of localizing objects in our ...
Abstract: Why and how people perceive the visual world as continuous and stable, despite the gross c...
The human eye-movement system is equipped with a sophisticated updating mechanism that can adjust fo...
To establish a perceptually stable world despite the large retinal shifts caused by saccadic eye mov...
Abstract Saccades are made thousands of times a day and are the principal means of localizing object...
Objects flashed briefly around the time of a saccadic eye movement are grossly mislocalized by human...
Retinal image displacements caused by saccadic eye movements are generally unnoticed. Recent theorie...
Every time we make a saccade we form a prediction about where objects are going to be when the eye l...
International audienceSaccadic eye movements cause displacements of the image of the visual world pr...
AbstractWhen multiple bars are briefly flashed near the saccadic goal on a visual reference just bef...
When visual objects shift rapidly across the retina, they produce motion blur. Intra-saccadic visual...
Accurately perceiving the locations of objects is essential for successfully interacting with our en...
Perisaccadic compression of the perceived location of flashed visual stimuli toward a saccade target...