Before each saccade, neurons in frontal eye field anticipate the impending eye movement by showing sensitivity to stimuli appearing where the neuron's receptive field will be at the end of the saccade, referred to as the future field (FF) of the neuron. We explored the time course of this anticipatory activity in monkeys by briefly flashing stimuli in the FF at different times before saccades. Different neurons showed substantial variation in FF time course, but two salient observations emerged. First, when we compared the time span of stimulus probes before the saccade to the time span of FF activity, we found a striking temporal compression of FF activity, similar to compression seen for perisaccadic stimuli in human psychophysics. Second...
We perceive a stable visual world even though saccades often move our retinas. One way the brain may...
The ability to anticipate predictable stimuli allows faster responses. The predictive saccade (PRED)...
Diversity in behavioral responses to sensory stimuli has been attributed to variations in preparator...
Before each saccade, neurons in frontal eye field anticipate the impending eye movement by showing s...
Our percept of visual stability across saccadic eye movements may be mediated by presaccadic remappi...
AbstractAt the time of an impending saccade receptive fields (RFs) undergo dynamic changes, that is,...
Primates can make accurate sequential saccades to rapidly flashed targets despite, in the case of an...
Stochastic accumulator models provide a comprehensive framework for how neural activity could produc...
the monkey frontal eye field. II. Memory responses. J Neurophysiol 86: 2344–2352, 2001. Monkeys and ...
In the study of the neural basis of sensorimotor transformations, it has become clear that the brain...
The frontal eye fields (FEF), originally identified as an oculomotor cortex, have also been implicat...
Humans use saccadic eye movements to make frequent gaze changes, yet the associated full-field image...
The frontal eye field (FEF) is a key brain region to study visuomotor transformations because the pr...
Humans use saccadic eye movements to make frequent gaze changes, yet the associated full-field image...
Abstract Visual perception has been suggested to operate on temporal ‘chunks’ of sensory input, rath...
We perceive a stable visual world even though saccades often move our retinas. One way the brain may...
The ability to anticipate predictable stimuli allows faster responses. The predictive saccade (PRED)...
Diversity in behavioral responses to sensory stimuli has been attributed to variations in preparator...
Before each saccade, neurons in frontal eye field anticipate the impending eye movement by showing s...
Our percept of visual stability across saccadic eye movements may be mediated by presaccadic remappi...
AbstractAt the time of an impending saccade receptive fields (RFs) undergo dynamic changes, that is,...
Primates can make accurate sequential saccades to rapidly flashed targets despite, in the case of an...
Stochastic accumulator models provide a comprehensive framework for how neural activity could produc...
the monkey frontal eye field. II. Memory responses. J Neurophysiol 86: 2344–2352, 2001. Monkeys and ...
In the study of the neural basis of sensorimotor transformations, it has become clear that the brain...
The frontal eye fields (FEF), originally identified as an oculomotor cortex, have also been implicat...
Humans use saccadic eye movements to make frequent gaze changes, yet the associated full-field image...
The frontal eye field (FEF) is a key brain region to study visuomotor transformations because the pr...
Humans use saccadic eye movements to make frequent gaze changes, yet the associated full-field image...
Abstract Visual perception has been suggested to operate on temporal ‘chunks’ of sensory input, rath...
We perceive a stable visual world even though saccades often move our retinas. One way the brain may...
The ability to anticipate predictable stimuli allows faster responses. The predictive saccade (PRED)...
Diversity in behavioral responses to sensory stimuli has been attributed to variations in preparator...