When the eye rotates, switching from one fixation point to another, the perception of motion is strongly suppressed and rarely perceived. During these quick ‘saccadic’ eye movements, other aspects of visual perception become suppressed or compressed as well, with certain effects being stronger or weaker along the plane of the saccade - such differences can help identify the underlying neuronal pathways, since some exhibit directional tuning (e.g. neurons projecting from primate V1 to middle temporal area (MT)), and others do not (e.g. relay neurons linking the superior colliculus to area MT). A briefly presented motion probe was placed at a number of points relative to saccade to plot sensitivity to motion along different planes and directi...
During natural viewing, the trajectories of saccadic eye movements often deviate dramatically from a...
We frequently reposition our gaze by making rapid ballistic eye movements that are called saccades. ...
Introspection makes it clear that we do not see the visual motion generated by our saccadic eye move...
In normal vision our gaze leaps from detail to detail, resulting in rapid image motion across the re...
Humans and other primates perform multiple fast eye movements per second in order to redirect gaze ...
International audienceDuring rapid eye movements, motion of the stationary world is generally not pe...
During visual exploration of a natural scene, saccades must be used to direct the fovea to areas of ...
Visual stability refers to the apparent stability of the visual world given the displacement of reti...
Successful interaction with our environment requires constant sampling of new sensory information by...
Saccades are fast eye movements that reorient gaze. They can be performed voluntarily—for example, w...
Visual sensitivity, probed through perceptual detectability of very brief visual stimuli, is strongl...
Active vision involves fast eye movements (saccades) with brief inter-saccadic fixations. This pre...
International audienceAnimals can make saccadic eye movements to intercept a moving object at the ri...
AbstractThere is now good evidence that perception of motion is strongly suppressed during saccades ...
Eye movements create an ever-changing image of the world on the retina. In particular, frequent sacc...
During natural viewing, the trajectories of saccadic eye movements often deviate dramatically from a...
We frequently reposition our gaze by making rapid ballistic eye movements that are called saccades. ...
Introspection makes it clear that we do not see the visual motion generated by our saccadic eye move...
In normal vision our gaze leaps from detail to detail, resulting in rapid image motion across the re...
Humans and other primates perform multiple fast eye movements per second in order to redirect gaze ...
International audienceDuring rapid eye movements, motion of the stationary world is generally not pe...
During visual exploration of a natural scene, saccades must be used to direct the fovea to areas of ...
Visual stability refers to the apparent stability of the visual world given the displacement of reti...
Successful interaction with our environment requires constant sampling of new sensory information by...
Saccades are fast eye movements that reorient gaze. They can be performed voluntarily—for example, w...
Visual sensitivity, probed through perceptual detectability of very brief visual stimuli, is strongl...
Active vision involves fast eye movements (saccades) with brief inter-saccadic fixations. This pre...
International audienceAnimals can make saccadic eye movements to intercept a moving object at the ri...
AbstractThere is now good evidence that perception of motion is strongly suppressed during saccades ...
Eye movements create an ever-changing image of the world on the retina. In particular, frequent sacc...
During natural viewing, the trajectories of saccadic eye movements often deviate dramatically from a...
We frequently reposition our gaze by making rapid ballistic eye movements that are called saccades. ...
Introspection makes it clear that we do not see the visual motion generated by our saccadic eye move...