The flash-lag effect is a visual misperception of a position of a flash relative to that of a moving object: Even when both are at the same position, the flash is reported to lag behind the moving object. In the present study, the flash-lag effect was investigated with eye-movement measurements: Subjects were required to saccade to either the flash or the moving object. The results showed that saccades to the flash were precise, whereas saccades to the moving object showed an offset in the direction of motion. A further experiment revealed that this offset in the saccades to the moving object was eliminated when the whole background flashed. This result indicates that saccadic offsets to the moving stimulus critically depend on the spatiall...
Motion from periphery to central vision (foveopetal motion) causes a greater flash-lag effect than m...
Contains fulltext : 103173.pdf (publisher's version ) (Closed access)Flashes prese...
The perceived position of a flash aligned with a moving object usually lags behind that object. This...
AbstractA moving object is perceived to lie beyond a static object presented at the same time at the...
It is known that spatial localization of flashed objects fails around the time of rapid eye movement...
To achieve perceptual alignment between a flashed target and a moving one, subjects typically requir...
AbstractBased on localization error for a single perisaccadic flash, eye position signal is supposed...
It is known that spatial localization of flashed objects fails around the time of rapid eye movement...
Contains fulltext : 103186.pdf (publisher's version ) (Open Access)It is known tha...
When a flash is presented in spatial alignment with a moving stimulus, the flash appears to lag behi...
AbstractIn this study, we examined the relation between motion induced position shifts and the posit...
Abstract In three experiments, we tested whether sequen-tially coding two visual stimuli can create ...
Contains fulltext : 139147.pdf (publisher's version ) (Open Access)Flashes present...
When observers are asked to localize the onset or the offset position of a moving target, they typic...
AbstractThe flash-lag effect (FLE) is defined as an error in localization that consists of perceivin...
Motion from periphery to central vision (foveopetal motion) causes a greater flash-lag effect than m...
Contains fulltext : 103173.pdf (publisher's version ) (Closed access)Flashes prese...
The perceived position of a flash aligned with a moving object usually lags behind that object. This...
AbstractA moving object is perceived to lie beyond a static object presented at the same time at the...
It is known that spatial localization of flashed objects fails around the time of rapid eye movement...
To achieve perceptual alignment between a flashed target and a moving one, subjects typically requir...
AbstractBased on localization error for a single perisaccadic flash, eye position signal is supposed...
It is known that spatial localization of flashed objects fails around the time of rapid eye movement...
Contains fulltext : 103186.pdf (publisher's version ) (Open Access)It is known tha...
When a flash is presented in spatial alignment with a moving stimulus, the flash appears to lag behi...
AbstractIn this study, we examined the relation between motion induced position shifts and the posit...
Abstract In three experiments, we tested whether sequen-tially coding two visual stimuli can create ...
Contains fulltext : 139147.pdf (publisher's version ) (Open Access)Flashes present...
When observers are asked to localize the onset or the offset position of a moving target, they typic...
AbstractThe flash-lag effect (FLE) is defined as an error in localization that consists of perceivin...
Motion from periphery to central vision (foveopetal motion) causes a greater flash-lag effect than m...
Contains fulltext : 103173.pdf (publisher's version ) (Closed access)Flashes prese...
The perceived position of a flash aligned with a moving object usually lags behind that object. This...