Add to ORKGIt is widely assumed that combining the eye movement vector with the motion vector of the retinal image is both sufficient and necessary for recovering the direction and speed of visual motion. Here, we report that execution of a saccadic (rapid) eye movement in the dark systematically biased subsequent perceptual judgment of the direction of visual motion in the direction opposite to the saccade. This non-veridical motion perception reached a maximum immediately after saccade offset and then decayed in 100 ms. These results suggest that the oculomotor signal interacts with central mechanisms related to motion and possibly form perception, as well as spatial vision, as documented with mislocalization of visual objects at the time of saccade...
During visual exploration of a natural scene, saccades must be used to direct the fovea to areas of ...
The human eye-movement system is equipped with a sophisticated updating mechanism that can adjust fo...
Although our naïve experience of visual perception is that it is smooth and coherent, the actual inp...
AbstractIt is widely assumed that combining the eye movement vector with the motion vector of the re...
International audienceWe tested whether the perception of gaze direction is affected by the shifts i...
We tested whether the perception of gaze direction is affected by the shifts in the retinal image of...
AbstractExecution of a saccadic eye movement influences subsequent motion perception [Park, J., Lee,...
International audienceDuring rapid eye movements, motion of the stationary world is generally not pe...
A saccade triggered during sustained smooth pursuit is programmed using retinal information about th...
The perceptual consequences of eye movements are manifold: Each large saccade is accompanied by a dr...
Much evidence suggests that visual motion can cause severe distortions in the perception of spatial ...
When visual objects shift rapidly across the retina, they produce motion blur. Intra-saccadic visual...
International audienceA saccade is a rapid shift of the position of the eyes (< 100 ms). Saccades ar...
International audienceA saccade is a rapid shift of the position of the eyes (< 100 ms). Saccades ar...
During visual exploration of a natural scene, saccades must be used to direct the fovea to areas of ...
The human eye-movement system is equipped with a sophisticated updating mechanism that can adjust fo...
Although our naïve experience of visual perception is that it is smooth and coherent, the actual inp...
AbstractIt is widely assumed that combining the eye movement vector with the motion vector of the re...
International audienceWe tested whether the perception of gaze direction is affected by the shifts i...
We tested whether the perception of gaze direction is affected by the shifts in the retinal image of...
AbstractExecution of a saccadic eye movement influences subsequent motion perception [Park, J., Lee,...
International audienceDuring rapid eye movements, motion of the stationary world is generally not pe...
A saccade triggered during sustained smooth pursuit is programmed using retinal information about th...
The perceptual consequences of eye movements are manifold: Each large saccade is accompanied by a dr...
Much evidence suggests that visual motion can cause severe distortions in the perception of spatial ...
When visual objects shift rapidly across the retina, they produce motion blur. Intra-saccadic visual...
International audienceA saccade is a rapid shift of the position of the eyes (< 100 ms). Saccades ar...
International audienceA saccade is a rapid shift of the position of the eyes (< 100 ms). Saccades ar...
During visual exploration of a natural scene, saccades must be used to direct the fovea to areas of ...
The human eye-movement system is equipped with a sophisticated updating mechanism that can adjust fo...
Although our naïve experience of visual perception is that it is smooth and coherent, the actual inp...