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F A Miles

Showing results (71-80 of 95) with videos related to

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Experimental Brain Research|August 8, 1998
Dependence of short-latency ocular following and associated activity in the medial superior temporal area (MST) on ocular vergenceY Inoue, A Takemura, K Kawano, et al.
Vision Research|February 21, 2006
Human ocular following initiated by competing image motions: evidence for a winner-take-all mechanismB M Sheliga, Y Kodaka, E J FitzGibbon, et al.
Colorectal Disease : the Official Journal of the Association of Coloproctology of Great Britain and Ireland|June 5, 2003
Colonoscopic surveillance after curative colorectal resection: results of an empirical surveillance programmeM R McFall, W G A Woods, W F A Miles
Vision Research|November 24, 2001
Short-latency ocular following in humans: sensitivity to binocular disparityG S Masson, C Busettini, D S Yang, et al.
Journal of Neurophysiology|May 16, 2001
Single-unit activity in cortical area MST associated with disparity-vergence eye movements: evidence for population codingA Takemura, Y Inoue, K Kawano, et al.
International Review of Neurobiology|December 22, 1999
The role of MST neurons during ocular tracking in 3D spaceK Kawano, Y Inoue, A Takemura, et al.
Annals of the New York Academy of Sciences|April 14, 2005
Initial ocular following in humans depends critically on the fourier components of the motion stimulusK J Chen, B M Sheliga, E J Fitzgibbon, et al.
Journal of Neurophysiology|May 1, 1980
Long-term adaptive changes in primate vestibuloocular reflex. III. Electrophysiological observations in flocculus of normal monkeysF A Miles, J H Fuller, D J Braitman, et al.
Vision Research|May 17, 2005
Initial ocular following in humans: a response to first-order motion energyB M Sheliga, K J Chen, E J Fitzgibbon, et al.
Vision Research|October 26, 2005
The initial ocular following responses elicited by apparent-motion stimuli: reversal by inter-stimulus intervalsB M Sheliga, K J Chen, E J FitzGibbon, et al.
Pageof 10

Showing results (71-80 of 95) with videos related to

Sort By:
Pageof 10
Experimental Brain Research|August 8, 1998
Dependence of short-latency ocular following and associated activity in the medial superior temporal area (MST) on ocular vergenceY Inoue, A Takemura, K Kawano, et al.
Vision Research|February 21, 2006
Human ocular following initiated by competing image motions: evidence for a winner-take-all mechanismB M Sheliga, Y Kodaka, E J FitzGibbon, et al.
Colorectal Disease : the Official Journal of the Association of Coloproctology of Great Britain and Ireland|June 5, 2003
Colonoscopic surveillance after curative colorectal resection: results of an empirical surveillance programmeM R McFall, W G A Woods, W F A Miles
Vision Research|November 24, 2001
Short-latency ocular following in humans: sensitivity to binocular disparityG S Masson, C Busettini, D S Yang, et al.
Journal of Neurophysiology|May 16, 2001
Single-unit activity in cortical area MST associated with disparity-vergence eye movements: evidence for population codingA Takemura, Y Inoue, K Kawano, et al.
International Review of Neurobiology|December 22, 1999
The role of MST neurons during ocular tracking in 3D spaceK Kawano, Y Inoue, A Takemura, et al.
Annals of the New York Academy of Sciences|April 14, 2005
Initial ocular following in humans depends critically on the fourier components of the motion stimulusK J Chen, B M Sheliga, E J Fitzgibbon, et al.
Journal of Neurophysiology|May 1, 1980
Long-term adaptive changes in primate vestibuloocular reflex. III. Electrophysiological observations in flocculus of normal monkeysF A Miles, J H Fuller, D J Braitman, et al.
Vision Research|May 17, 2005
Initial ocular following in humans: a response to first-order motion energyB M Sheliga, K J Chen, E J Fitzgibbon, et al.
Vision Research|October 26, 2005
The initial ocular following responses elicited by apparent-motion stimuli: reversal by inter-stimulus intervalsB M Sheliga, K J Chen, E J FitzGibbon, et al.
Pageof 10