We investigate how the spiking activity of the SC population drives gaze to the intended target location within a dynamic local gaze-velocity feedback circuit.

Nov 17, 2022 · We investigate how the spiking activity of the SC population drives gaze to the intended target location within a dynamic local ...

Aug 24, 2022 · Abstract. To reorient gaze (the eye in space) towards a target can be achieved by infinitely many combinations of eye- and head movements.

The midbrain superior colliculus (SC) generates a rapid saccadic eye movement to a sensory stimulus by recruiting a population of cells in its topographically ...

Dynamic control of eye-head gaze shifts by a spiking neural network model of the superior colliculus ; Fulltext: 288115.pdf ; Size: 10.36Mb ; Format: PDF.

Dynamic control of eye-head gaze shifts by a spiking neural network model of the superior colliculus. https://doi.org/10.3389/fncom.2022.1040646 ·. Journal ...

Dynamic control of eye-head gaze shifts by a spiking neural network model of the superior colliculus · Frontiers in Computational Neuroscience, November 2022.

The more realistic spiking activity of the population of recruited SC neurons thus drives eye and head to the target location within a dynamic gaze-velocity ...

Apr 28, 2022 · We recently proposed a simple spiking neural network model of the SC motor map, based on linear summation of individual spike effects of each recruited neuron.

A problem in the control of combined eye-head gaze shifts ... neuron sa3009 for eye-head gaze shifts into and near its movement field. ... dynamic gaze ...