Contains fulltext : 35951.pdf (publisher's version ) (Closed access)The deeper layers of the midbrain superior colliculus (SC) contain a topographic motor map in which a localized population of cells is recruited for each saccade, but how the brain stem decodes the dynamic SC output is unclear. Here we analyze saccade-related responses in the monkey SC to test a new dynamic ensemble-coding model, which proposes that each spike from each saccade-related SC neuron adds a fixed, site-specific contribution to the intended eye movement command. As predicted by this simple theory, we found that the cumulative number of spikes in the cell bursts is tightly related to the displacement of the eye along the ideal straight trajectory...
& Significant advances in cognitive neuroscience can be achieved by combining techniques used to...
During active vision, we convert information about visual objects in our periphery into goal-directe...
AbstractThe ability of primates to make rapid and accurate saccadic eye movements for exploring the ...
Contains fulltext : 69496.pdf (author's version ) (Open Access) ...
Contains fulltext : 108909.pdf (publisher's version ) (Open Access)A major challen...
<div><p>A major challenge in computational neurobiology is to understand how populations of noisy, b...
The dynamic responses of 79 superior colliculus neurons were recorded in 2 monkeys (Macaca Mulatta) ...
Successful interaction with our environment requires constant sampling of new sensory information by...
Experimental evidence indicates that the superior colliculus (SC) is important but neither necessary...
Neurons in the deep layers of the superior colliculus (dSC) emit a vigorous burst of action potentia...
International audienceFollowing the suggestion that a command encoding current target location feeds...
The ability of primates to make rapid and accurate saccadic eye movements for exploring the natural ...
The subcortical saccade-generating system consists of the retina, superior colliculus, cerebellum an...
We investigate the role that superior colliculus (SC) and cerebellum (CBLM) might play in controllin...
© 2020, Springer Science+Business Media, LLC, part of Springer Nature. Saccades require a spatiotemp...
& Significant advances in cognitive neuroscience can be achieved by combining techniques used to...
During active vision, we convert information about visual objects in our periphery into goal-directe...
AbstractThe ability of primates to make rapid and accurate saccadic eye movements for exploring the ...
Contains fulltext : 69496.pdf (author's version ) (Open Access) ...
Contains fulltext : 108909.pdf (publisher's version ) (Open Access)A major challen...
<div><p>A major challenge in computational neurobiology is to understand how populations of noisy, b...
The dynamic responses of 79 superior colliculus neurons were recorded in 2 monkeys (Macaca Mulatta) ...
Successful interaction with our environment requires constant sampling of new sensory information by...
Experimental evidence indicates that the superior colliculus (SC) is important but neither necessary...
Neurons in the deep layers of the superior colliculus (dSC) emit a vigorous burst of action potentia...
International audienceFollowing the suggestion that a command encoding current target location feeds...
The ability of primates to make rapid and accurate saccadic eye movements for exploring the natural ...
The subcortical saccade-generating system consists of the retina, superior colliculus, cerebellum an...
We investigate the role that superior colliculus (SC) and cerebellum (CBLM) might play in controllin...
© 2020, Springer Science+Business Media, LLC, part of Springer Nature. Saccades require a spatiotemp...
& Significant advances in cognitive neuroscience can be achieved by combining techniques used to...
During active vision, we convert information about visual objects in our periphery into goal-directe...
AbstractThe ability of primates to make rapid and accurate saccadic eye movements for exploring the ...