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D Guitton

Showing results (11-20 of 69) with videos related to

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Nature Neuroscience|August 31, 2000
Fixation neurons in the superior colliculus encode distance between current and desired gaze positionsA Bergeron, D Guitton
Progress in Brain Research|November 13, 2001
The superior colliculus and its control of fixation behavior via projections to brainstem omnipause neuronsA Bergeron, D Guitton
Experimental Brain Research|January 1, 1994
The fixation area of the cat superior colliculus: effects of electrical stimulation and direct connection with brainstem omnipause neuronsM Paré, D Guitton
Journal of Neurophysiology|September 1, 1987
Gaze control in humans: eye-head coordination during orienting movements to targets within and beyond the oculomotor rangeD Guitton, M Volle
Current Biology : CB|October 24, 2018
The primitive retino-tecto-reticular pathway is functional in hemidecorticate patientsO Savina, D Guitton
Revue Neurologique|January 1, 1989
Fixation and orientation control by the tecto-reticulo-spinal system in the cat whose head is unrestrainedD P Munoz, D Guitton
Journal of Neurophysiology|February 7, 1998
Analysis of primate IBN spike trains using system identification techniques. I. Relationship To eye movement dynamics during head-fixed saccadesK E Cullen, D Guitton
Brain Research|August 19, 1985
Tectospinal neurons in the cat have discharges coding gaze position errorD P Munoz, D Guitton
Annals of the New York Academy of Sciences|June 19, 1996
Inhibitory burst neuron activity encodes gaze, not eye, metrics and dynamics during passive head on body rotation. Evidence that vestibular signals supplement visual information in the control of gaze shiftsK E Cullen, D Guitton
Journal of Neurophysiology|November 1, 1991
Control of orienting gaze shifts by the tectoreticulospinal system in the head-free cat. II. Sustained discharges during motor preparation and fixationD P Munoz, D Guitton
Pageof 7

Showing results (11-20 of 69) with videos related to

Sort By:
Pageof 7
Nature Neuroscience|August 31, 2000
Fixation neurons in the superior colliculus encode distance between current and desired gaze positionsA Bergeron, D Guitton
Progress in Brain Research|November 13, 2001
The superior colliculus and its control of fixation behavior via projections to brainstem omnipause neuronsA Bergeron, D Guitton
Experimental Brain Research|January 1, 1994
The fixation area of the cat superior colliculus: effects of electrical stimulation and direct connection with brainstem omnipause neuronsM Paré, D Guitton
Journal of Neurophysiology|September 1, 1987
Gaze control in humans: eye-head coordination during orienting movements to targets within and beyond the oculomotor rangeD Guitton, M Volle
Current Biology : CB|October 24, 2018
The primitive retino-tecto-reticular pathway is functional in hemidecorticate patientsO Savina, D Guitton
Revue Neurologique|January 1, 1989
Fixation and orientation control by the tecto-reticulo-spinal system in the cat whose head is unrestrainedD P Munoz, D Guitton
Journal of Neurophysiology|February 7, 1998
Analysis of primate IBN spike trains using system identification techniques. I. Relationship To eye movement dynamics during head-fixed saccadesK E Cullen, D Guitton
Brain Research|August 19, 1985
Tectospinal neurons in the cat have discharges coding gaze position errorD P Munoz, D Guitton
Annals of the New York Academy of Sciences|June 19, 1996
Inhibitory burst neuron activity encodes gaze, not eye, metrics and dynamics during passive head on body rotation. Evidence that vestibular signals supplement visual information in the control of gaze shiftsK E Cullen, D Guitton
Journal of Neurophysiology|November 1, 1991
Control of orienting gaze shifts by the tectoreticulospinal system in the head-free cat. II. Sustained discharges during motor preparation and fixationD P Munoz, D Guitton
Pageof 7