Contains fulltext : 69496.pdf (author's version ) (Open Access) Contains fulltext : 69496.pdf (publisher's version ) (Closed access)Recently, we proposed an ensemble-coding scheme of the midbrain superior colliculus (SC) in which, during a saccade, each spike emitted by each recruited SC neuron contributes a fixed minivector to the gaze-control motor output. The size and direction of this 'spike vector' depend exclusively on a cell's location within the SC motor map (Goossens and Van Opstal, in J Neurophysiol 95: 2326-2341, 2006). According to this simple scheme, the planned saccade trajectory results from instantaneous linear summation of all spike vectors across the mo...
International audienceThe superior colliculus is one of the few structure of the brain that has been...
Successful interaction with our environment requires constant sampling of new sensory information by...
<p><b>A</b>) Left: main sequence relationship between saccade amplitude, duration and peak velocity....
Contains fulltext : 35951.pdf (publisher's version ) (Closed access)The deeper lay...
<div><p>A major challenge in computational neurobiology is to understand how populations of noisy, b...
A major challenge in computational neurobiology is to understand how populations of noisy, broadly-t...
The subcortical saccade-generating system consists of the retina, superior colliculus, cerebellum an...
The midbrain superior colliculus (SC) generates a rapid saccadic eye movement to a sensory stimulus ...
Experimental evidence indicates that the superior colliculus (SC) is important but neither necessary...
© 2020, Springer Science+Business Media, LLC, part of Springer Nature. Saccades require a spatiotemp...
We are immersed in an environment full of sensory information, and without much thought or effort we...
We investigate the role that superior colliculus (SC) and cerebellum (CBLM) might play in controllin...
& Significant advances in cognitive neuroscience can be achieved by combining techniques used to...
We investigate the role that superior colliculus (SC) and cerebellum (CBLM) might play in controllin...
ABSTRACT: How does the brain tell the eye where to go? Classical models of rapid eye movements are l...
International audienceThe superior colliculus is one of the few structure of the brain that has been...
Successful interaction with our environment requires constant sampling of new sensory information by...
<p><b>A</b>) Left: main sequence relationship between saccade amplitude, duration and peak velocity....
Contains fulltext : 35951.pdf (publisher's version ) (Closed access)The deeper lay...
<div><p>A major challenge in computational neurobiology is to understand how populations of noisy, b...
A major challenge in computational neurobiology is to understand how populations of noisy, broadly-t...
The subcortical saccade-generating system consists of the retina, superior colliculus, cerebellum an...
The midbrain superior colliculus (SC) generates a rapid saccadic eye movement to a sensory stimulus ...
Experimental evidence indicates that the superior colliculus (SC) is important but neither necessary...
© 2020, Springer Science+Business Media, LLC, part of Springer Nature. Saccades require a spatiotemp...
We are immersed in an environment full of sensory information, and without much thought or effort we...
We investigate the role that superior colliculus (SC) and cerebellum (CBLM) might play in controllin...
& Significant advances in cognitive neuroscience can be achieved by combining techniques used to...
We investigate the role that superior colliculus (SC) and cerebellum (CBLM) might play in controllin...
ABSTRACT: How does the brain tell the eye where to go? Classical models of rapid eye movements are l...
International audienceThe superior colliculus is one of the few structure of the brain that has been...
Successful interaction with our environment requires constant sampling of new sensory information by...
<p><b>A</b>) Left: main sequence relationship between saccade amplitude, duration and peak velocity....