In dynamic environments, it is crucial to accurately consider the timing of information. For instance, during saccades the eyes rotate so fast that even small temporal errors in relating retinal stimulation by flashed stimuli to extra-retinal information about the eyes' orientations will give rise to substantial errors in where the stimuli are judged to be. If spatial localization involves judging the eyes' orientations at the estimated time of the flash, we should be able to manipulate the pattern of mislocalization by altering the estimated time of the flash. We reasoned that if we presented a relevant flash within a short rapid sequence of irrelevant flashes, participants' estimates of when the relevant flash was presented might be shift...
Contains fulltext : 139147.pdf (publisher's version ) (Open Access)Flashes present...
AbstractTo realize perceptual space constancy, the visual system compensates for the retinal displac...
AbstractBased on localization error for a single perisaccadic flash, eye position signal is supposed...
In dynamic environments, it is crucial to accurately consider the timing of information. For instanc...
<div><p>In dynamic environments, it is crucial to accurately consider the timing of information. For...
In dynamic environments, it is crucial to accurately consider the timing of information. For instanc...
To localize objects relative to ourselves, we need to combine various sensory and motor signals. Whe...
Contains fulltext : 103186.pdf (publisher's version ) (Open Access)It is known tha...
It is known that spatial localization of flashed objects fails around the time of rapid eye movement...
In dynamic environments, it is crucial to accurately consider the timing of information. For instanc...
It is known that spatial localization of flashed objects fails around the time of rapid eye movement...
Flashes presented around the time of a saccade are often mislocalized. The precise pattern of misloc...
The perceptual localization of objects flashed at the time of a saccade often shows large spatial di...
Flashes presented around the time of a saccade are often mislocalized. The precise pattern of misloc...
AbstractFlashes presented around the time of a saccade are often mislocalized. The precise pattern o...
Contains fulltext : 139147.pdf (publisher's version ) (Open Access)Flashes present...
AbstractTo realize perceptual space constancy, the visual system compensates for the retinal displac...
AbstractBased on localization error for a single perisaccadic flash, eye position signal is supposed...
In dynamic environments, it is crucial to accurately consider the timing of information. For instanc...
<div><p>In dynamic environments, it is crucial to accurately consider the timing of information. For...
In dynamic environments, it is crucial to accurately consider the timing of information. For instanc...
To localize objects relative to ourselves, we need to combine various sensory and motor signals. Whe...
Contains fulltext : 103186.pdf (publisher's version ) (Open Access)It is known tha...
It is known that spatial localization of flashed objects fails around the time of rapid eye movement...
In dynamic environments, it is crucial to accurately consider the timing of information. For instanc...
It is known that spatial localization of flashed objects fails around the time of rapid eye movement...
Flashes presented around the time of a saccade are often mislocalized. The precise pattern of misloc...
The perceptual localization of objects flashed at the time of a saccade often shows large spatial di...
Flashes presented around the time of a saccade are often mislocalized. The precise pattern of misloc...
AbstractFlashes presented around the time of a saccade are often mislocalized. The precise pattern o...
Contains fulltext : 139147.pdf (publisher's version ) (Open Access)Flashes present...
AbstractTo realize perceptual space constancy, the visual system compensates for the retinal displac...
AbstractBased on localization error for a single perisaccadic flash, eye position signal is supposed...