Add to ORKGWhen viewing a scene or searching for a target, an observer usually makes a series of saccades that quickly shift the orientation of the eyes. The present study explored how one saccade affects subsequent saccades within a dynamic neural field model of the superior colliculus (SC). The SC contains an oculocentric motor map that encodes the vector of saccades and remaps to the new fixation location after each saccade. Our simulations demonstrated that the observation that saccades which reverse their vectors are slower to initiate than those which repeat vectors can be explained by the afore-mentioned remapping process and the internal dynamics of the SC. How this finding connects to the study of inhibition of return is discussed and suggest...
During natural viewing, the trajectories of saccadic eye movements often deviate dramatically from a...
ABSTRACT: How does the brain tell the eye where to go? Classical models of rapid eye movements are l...
An important property of our motor system is the ability to either perform or inhibit an automatic g...
When viewing a scene or searching for a target, an observer usually makes a series of saccades that ...
When viewing a scene or searching for a target, an observer usually makes a series of saccades that ...
When viewing a scene or searching for a target, an observer usually makes a series of saccades that ...
When viewing a scene or searching for a target, an observer usually makes a series of saccades that ...
Contrary to human intuition, saccades (rapid eye movements) rarely go directly to their intended des...
Contrary to human intuition, saccades (rapid eye movements) rarely go directly to their intended des...
AbstractContrary to human intuition, saccades (rapid eye movements) rarely go directly to their inte...
& Significant advances in cognitive neuroscience can be achieved by combining techniques used to...
We propose two explicit mechanisms contributing to oculomotor inhibition of return (IOR): sensory an...
International audienceFollowing the suggestion that a command encoding current target location feeds...
Contains fulltext : 35951.pdf (publisher's version ) (Closed access)The deeper lay...
Sensory adaptation and oculomotor inhibition of return (IOR) have been extensively modeled using a o...
During natural viewing, the trajectories of saccadic eye movements often deviate dramatically from a...
ABSTRACT: How does the brain tell the eye where to go? Classical models of rapid eye movements are l...
An important property of our motor system is the ability to either perform or inhibit an automatic g...
When viewing a scene or searching for a target, an observer usually makes a series of saccades that ...
When viewing a scene or searching for a target, an observer usually makes a series of saccades that ...
When viewing a scene or searching for a target, an observer usually makes a series of saccades that ...
When viewing a scene or searching for a target, an observer usually makes a series of saccades that ...
Contrary to human intuition, saccades (rapid eye movements) rarely go directly to their intended des...
Contrary to human intuition, saccades (rapid eye movements) rarely go directly to their intended des...
AbstractContrary to human intuition, saccades (rapid eye movements) rarely go directly to their inte...
& Significant advances in cognitive neuroscience can be achieved by combining techniques used to...
We propose two explicit mechanisms contributing to oculomotor inhibition of return (IOR): sensory an...
International audienceFollowing the suggestion that a command encoding current target location feeds...
Contains fulltext : 35951.pdf (publisher's version ) (Closed access)The deeper lay...
Sensory adaptation and oculomotor inhibition of return (IOR) have been extensively modeled using a o...
During natural viewing, the trajectories of saccadic eye movements often deviate dramatically from a...
ABSTRACT: How does the brain tell the eye where to go? Classical models of rapid eye movements are l...
An important property of our motor system is the ability to either perform or inhibit an automatic g...