It is well known that compression of visual space occurs near the saccade goal when visual stimuli are briefly flashed at various locations on a visual reference just before a saccade. We investigated how presaccadic compression of visual space affected the apparent size of an object. In the first experiment, subjects were instructed to report the apparent number of multiple bars briefly presented around the time of saccade onset. The reported number of four bars began to decline at the 50 ms mark before a saccade and reached a minimum near the saccade onset. This confirms that the compression of visual space occurs just before saccades. In the second experiment, subjects judged the apparent width of a rectangle (a single element) or four b...
There is now considerable evidence that space is compressed when stimuli are flashed shortly before ...
AbstractIn the occurrence of a saccadic eye movement vision becomes suppressed. Supra-threshold visu...
Our visual system is fovea-heavy, which means that in-depth processing occurs only in the centre of ...
AbstractWhen multiple bars are briefly flashed near the saccadic goal on a visual reference just bef...
Visual objects presented around the time of saccadic eye movements are strongly mislocalized towards...
BACKGROUND: Observers misperceive the location of points within a scene as compressed towards the go...
When saccadic eye movements consistently fail to land on the intended target, saccade accuracy is ma...
Copyright © 2005 Association for Research in Vision and OphthalmologyWe studied the effects of visua...
Stimuli briefly flashed just before a saccade are perceived closer to the saccade target, a phenomen...
International audienceStimuli briefly flashed just before a saccade are perceived closer to the sacc...
Brief visual stimuli presented before and during a saccade are often mislocalized due to spatial com...
Various studies have identified systematic errors, such as spatial compression, when observers repor...
Objects flashed briefly around the time of a saccadic eye movement are grossly mislocalized by human...
AbstractStimuli briefly flashed just before a saccade are perceived closer to the saccade target, a ...
Around the time of saccadic eye movements, briefly presented stimuli are seen to be displaced from t...
There is now considerable evidence that space is compressed when stimuli are flashed shortly before ...
AbstractIn the occurrence of a saccadic eye movement vision becomes suppressed. Supra-threshold visu...
Our visual system is fovea-heavy, which means that in-depth processing occurs only in the centre of ...
AbstractWhen multiple bars are briefly flashed near the saccadic goal on a visual reference just bef...
Visual objects presented around the time of saccadic eye movements are strongly mislocalized towards...
BACKGROUND: Observers misperceive the location of points within a scene as compressed towards the go...
When saccadic eye movements consistently fail to land on the intended target, saccade accuracy is ma...
Copyright © 2005 Association for Research in Vision and OphthalmologyWe studied the effects of visua...
Stimuli briefly flashed just before a saccade are perceived closer to the saccade target, a phenomen...
International audienceStimuli briefly flashed just before a saccade are perceived closer to the sacc...
Brief visual stimuli presented before and during a saccade are often mislocalized due to spatial com...
Various studies have identified systematic errors, such as spatial compression, when observers repor...
Objects flashed briefly around the time of a saccadic eye movement are grossly mislocalized by human...
AbstractStimuli briefly flashed just before a saccade are perceived closer to the saccade target, a ...
Around the time of saccadic eye movements, briefly presented stimuli are seen to be displaced from t...
There is now considerable evidence that space is compressed when stimuli are flashed shortly before ...
AbstractIn the occurrence of a saccadic eye movement vision becomes suppressed. Supra-threshold visu...
Our visual system is fovea-heavy, which means that in-depth processing occurs only in the centre of ...