AbstractHuman vision is stable and continuous in spite of the incessant interruptions produced by saccadic eye movements. These rapid eye movements serve vision by directing the high resolution fovea rapidly from one part of the visual scene to another. They should detract from vision because they generate two major problems: displacement of the retinal image with each saccade and blurring of the image during the saccade. This review considers the substantial advances in understanding the neuronal mechanisms underlying this visual stability derived primarily from neuronal recording and inactivation studies in the monkey, an excellent model for systems in the human brain. For the first problem, saccadic displacement, two neuronal candidates ...
AbstractTo interact rapidly and effectively with our environment, our brain needs access to a dynami...
Visual stability refers to our stable visuospatial perceptions despite the unstable visual input cau...
AbstractPredicting the consequences of our actions is essential for sensorimotor control. A candidat...
AbstractHuman vision is stable and continuous in spite of the incessant interruptions produced by sa...
Humans and other primates perform multiple fast eye movements per second in order to redirect gaze ...
As a foveate animal, the primate must redirect its gaze with saccadic eye movements to subject diffe...
Saccadic eye movements direct the high-resolution foveae of our retinas toward objects of interest. ...
AbstractWhile saccadic eye movements produce rapid shift of images of objects on the retina, the vis...
How the visual system achieves perceptual stability across saccadic eye movements is a long-standing...
The image on the retina may move because the eyes move, or because something in the visual scene mov...
AbstractSaccades challenge visual perception since they induce large shifts of the image on the reti...
The perceptual consequences of eye movements are manifold: Each large saccade is accompanied by a dr...
The understanding of the subjective experience of a visually stable world despite the occurrence of ...
Visual stability refers to the apparent stability of the visual world given the displacement of reti...
International audienceOculars saccades are very fast eyes movements, occurring about 3 times per sec...
AbstractTo interact rapidly and effectively with our environment, our brain needs access to a dynami...
Visual stability refers to our stable visuospatial perceptions despite the unstable visual input cau...
AbstractPredicting the consequences of our actions is essential for sensorimotor control. A candidat...
AbstractHuman vision is stable and continuous in spite of the incessant interruptions produced by sa...
Humans and other primates perform multiple fast eye movements per second in order to redirect gaze ...
As a foveate animal, the primate must redirect its gaze with saccadic eye movements to subject diffe...
Saccadic eye movements direct the high-resolution foveae of our retinas toward objects of interest. ...
AbstractWhile saccadic eye movements produce rapid shift of images of objects on the retina, the vis...
How the visual system achieves perceptual stability across saccadic eye movements is a long-standing...
The image on the retina may move because the eyes move, or because something in the visual scene mov...
AbstractSaccades challenge visual perception since they induce large shifts of the image on the reti...
The perceptual consequences of eye movements are manifold: Each large saccade is accompanied by a dr...
The understanding of the subjective experience of a visually stable world despite the occurrence of ...
Visual stability refers to the apparent stability of the visual world given the displacement of reti...
International audienceOculars saccades are very fast eyes movements, occurring about 3 times per sec...
AbstractTo interact rapidly and effectively with our environment, our brain needs access to a dynami...
Visual stability refers to our stable visuospatial perceptions despite the unstable visual input cau...
AbstractPredicting the consequences of our actions is essential for sensorimotor control. A candidat...