<div><p>When the inside texture of a moving object moves, the perceived motion of the object is often distorted toward the direction of the texture’s motion (motion-induced position shift), and such perceptual distortion accumulates while the object is watched, causing what is known as the curveball illusion. In a recent study, however, the accumulation of the position error was not observed in saccadic eye movements. Here, we examined whether the position of the illusory object is represented independently in the perceptual and saccadic systems. In the experiments, the stimulus of the curveball illusion was adopted to examine the temporal change in the position representation for saccadic eye movements and for perception by varying the ela...
Accurately perceiving the locations of objects is essential for successfully interacting with our en...
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...
When the inside texture of a moving object moves, the perceived motion of the object is often distor...
SummaryVisual processing in the human brain provides the data both for perception and for guiding mo...
A stimulus that is flashed around the time of a saccade tends to be mislocalized in the direction of...
Abstract Saccades are made thousands of times a day and are the principal means of localizing object...
<p>The red curve shows the average difference in localization between the two configurations of the ...
A stimulus that is flashed around the time of a saccade tends to be mislocalized in the direction of...
Saccades are made thousands of times a day and are the principal means of localizing objects in our ...
The amplitude of saccadic eye movements is affected by size illusions such as the Müller-Lyer illusi...
A stimulus that is flashed around the time of a saccade tends to be mislocalized in the direction of...
AbstractIn this study, we examined the relation between motion induced position shifts and the posit...
Although our naïve experience of visual perception is that it is smooth and coherent, the actual inp...
Although motion processing in the brain has been classically studied in terms of retinotopically def...
Accurately perceiving the locations of objects is essential for successfully interacting with our en...
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...
When the inside texture of a moving object moves, the perceived motion of the object is often distor...
SummaryVisual processing in the human brain provides the data both for perception and for guiding mo...
A stimulus that is flashed around the time of a saccade tends to be mislocalized in the direction of...
Abstract Saccades are made thousands of times a day and are the principal means of localizing object...
<p>The red curve shows the average difference in localization between the two configurations of the ...
A stimulus that is flashed around the time of a saccade tends to be mislocalized in the direction of...
Saccades are made thousands of times a day and are the principal means of localizing objects in our ...
The amplitude of saccadic eye movements is affected by size illusions such as the Müller-Lyer illusi...
A stimulus that is flashed around the time of a saccade tends to be mislocalized in the direction of...
AbstractIn this study, we examined the relation between motion induced position shifts and the posit...
Although our naïve experience of visual perception is that it is smooth and coherent, the actual inp...
Although motion processing in the brain has been classically studied in terms of retinotopically def...
Accurately perceiving the locations of objects is essential for successfully interacting with our en...
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...