AbstractAt the time of an impending saccade receptive fields (RFs) undergo dynamic changes, that is, their spatial profile is altered. This phenomenon has been observed in several monkey visual areas. Although their link to eye movements is obvious, neither the exact pattern nor their function is fully clear. Several RF shifts have been interpreted in terms of predictive remapping mediating visual stability. In particular, even prior to saccade onset some cells become responsive to stimuli presented in their future, post-saccadic RF. In visual area V4, however, the overall effect of RF dynamics consists of a shrinkage and shift of RFs towards the saccade target. These observations have been linked to a pre-saccadically enhanced processing o...
Before each saccade, neurons in frontal eye field anticipate the impending eye movement by showing s...
AbstractTo interact rapidly and effectively with our environment, our brain needs access to a dynami...
Humans and other primates perform multiple fast eye movements per second in order to redirect gaze ...
AbstractAt the time of an impending saccade receptive fields (RFs) undergo dynamic changes, that is,...
Visual neurons have spatial receptive fields that encode the positions of objects relative to the fo...
The receptive field, defined as the spatiotemporal selectivity of neurons to sensory stimuli, is cen...
Our eyes move constantly at a frequency of 3–5 times per second. These movements, called saccades, i...
Eye movements create an ever-changing image of the world on the retina. In particular, frequent sacc...
AbstractThe receptive field, defined as the spatiotemporal selectivity of neurons to sensory stimuli...
The understanding of the subjective experience of a visually stable world despite the occurrence of ...
As a foveate animal, the primate must redirect its gaze with saccadic eye movements to subject diffe...
The understanding of the subjective experience of a visually stable world despite the occurrence of ...
Perceptual phenomena that occur around the time of a saccade, such as peri-saccadic mislocalization ...
Before each saccade, neurons in frontal eye field anticipate the impending eye movement by showing s...
Saccadic eye movements cause rapid and dramatic displacements of the retinal image of the visual wor...
Before each saccade, neurons in frontal eye field anticipate the impending eye movement by showing s...
AbstractTo interact rapidly and effectively with our environment, our brain needs access to a dynami...
Humans and other primates perform multiple fast eye movements per second in order to redirect gaze ...
AbstractAt the time of an impending saccade receptive fields (RFs) undergo dynamic changes, that is,...
Visual neurons have spatial receptive fields that encode the positions of objects relative to the fo...
The receptive field, defined as the spatiotemporal selectivity of neurons to sensory stimuli, is cen...
Our eyes move constantly at a frequency of 3–5 times per second. These movements, called saccades, i...
Eye movements create an ever-changing image of the world on the retina. In particular, frequent sacc...
AbstractThe receptive field, defined as the spatiotemporal selectivity of neurons to sensory stimuli...
The understanding of the subjective experience of a visually stable world despite the occurrence of ...
As a foveate animal, the primate must redirect its gaze with saccadic eye movements to subject diffe...
The understanding of the subjective experience of a visually stable world despite the occurrence of ...
Perceptual phenomena that occur around the time of a saccade, such as peri-saccadic mislocalization ...
Before each saccade, neurons in frontal eye field anticipate the impending eye movement by showing s...
Saccadic eye movements cause rapid and dramatic displacements of the retinal image of the visual wor...
Before each saccade, neurons in frontal eye field anticipate the impending eye movement by showing s...
AbstractTo interact rapidly and effectively with our environment, our brain needs access to a dynami...
Humans and other primates perform multiple fast eye movements per second in order to redirect gaze ...