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Eye Velocity Gain Fields in MSTd During Optokinetic StimulationRapid and independent memory formation in the parietal cortexSpatiotemporal movement planning and rapid adaptation for manual interaction.Vestibular perception following acute unilateral vestibular lesions.Torsional deviations with voluntary saccades caused by a unilateral midbrain lesion.Eye and head torsion is affected in patients with midbrain lesions.The response of MSTd neurons to perturbations in target motion during ongoing smooth-pursuit eye movementsStructural and functional plasticity of the hippocampal formation in professional dancers and slackliners.Gain Control in Predictive Smooth Pursuit Eye Movements: Evidence for an Acceleration-Based Predictive Mechanism.Moving just like you: motor interference depends on similar motility of agent and observer.Vestibular perception and navigation in the congenitally blind.An information-theoretic approach for evaluating probabilistic tuning functions of single neuronsAdjustments of speed and path when avoiding collisions with another pedestrian.Cerebellar contribution to saccades and gaze holding: a modeling approach.Opioid-Induced Nausea Involves a Vestibular Problem Preventable by Head-Rest."Taller and Shorter": Human 3-D Spatial Memory Distorts Familiar Multilevel BuildingsPreventing opioid-induced nausea and vomiting: Rest your head and close your eyes?Current models of the ocular motor system.Neuronal variability of MSTd neurons changes differentially with eye movement and visually related variables.A Bayesian perspective on magnitude estimation.Cerebellar and visual gray matter brain volume increases in congenital nystagmus.Influence of person- and situation-specific characteristics on collision avoidance behavior in human locomotion.3-D spatial memory and navigation: functions and disorders.4-aminopyridine restores visual ocular motor function in upbeat nystagmusThe effects of digital anaesthesia on predictive grip force adjustments during vertical movements of a grasped object.Velocity scaling of cue-induced smooth pursuit acceleration obeys constraints of natural motion.Linear spatio-temporal convergence in vestibular neurons of the primate nucleus fastigii.Central paroxysmal positional nystagmus: Characteristics and possible mechanisms.Age-related decline in functional connectivity of the vestibular cortical network.Anterior canal failure: ocular torsion without perceptual tilt due to preserved otolith function.A third eye for the surgeon.Interaction of semicircular canals and otoliths in the processing structure of the subjective zenith.Vertical vestibular responses to head impulses are symmetric in downbeat nystagmus.Fractal dimension analysis for spike detection in low SNR extracellular signals.Nonlinear nystagmus processing causes torsional VOR nonlinearity.4-aminopyridine improves downbeat nystagmus, smooth pursuit, and VOR gain.Up-down asymmetry of cerebellar activation during vertical pursuit eye movements.Information-theoretic analysis of a dynamic release site using a two-channel model of depression.Strategies of locomotor collision avoidance.Differential dynamic processing of afferent signals in frog tonic and phasic second-order vestibular neurons.
P50
Q27303010-730572CB-BE9F-4D56-AC03-9DF08F1D2256Q28315025-4954AB73-0AE4-4537-81EF-C5EBE3FC0933Q30454237-89F42B42-0A13-4DF5-8AD9-C222A1C9E627Q30454687-E22AE34C-DA30-4DA6-AFAD-8309195B1D9FQ30480802-6E0AE972-875D-4D3D-B6A1-BAD158A6F697Q33362224-EF7981F2-D82A-4A3E-AF92-73290C238925Q33593611-4196D161-DC0F-4FE4-B4B2-3B451DD69D1CQ33613832-ACE77599-39AC-4B72-B9B8-A3F436E0C6FAQ33733066-DD4755E2-5D4C-4DD0-85B7-A337D14EA595Q34326368-88C133C7-E6CF-4552-8EAB-EE75CE783762Q34613392-F7536612-6A88-4180-BB06-8417029A94C0Q34765848-D8AA5FF5-21B1-472D-9DC0-7788C78649F2Q35107687-3EC06842-99E7-40C0-976B-5E0F2534847BQ35603130-F3695E9C-3D2B-4ED5-8248-2B097F5C78F6Q35757510-CD3702E3-168D-4F08-8B1A-F2AD6BC0043AQ35824495-4B15590A-2416-424D-A69E-9E940F86595FQ36307619-B1D46BB4-E505-41A9-B142-E3187680822FQ36792758-BE5EF27C-5A2A-44D7-B70D-7CC49D2EB0FAQ36973250-BFE3FB1B-BB1B-4F26-BFD1-B89AABCAC14EQ38406373-348E40FF-C1F4-4490-8D93-FF317F5B71C1Q38586684-6F1D265F-2536-469D-BAFA-0FC28AC124F0Q38892228-77752623-1972-4F4E-999B-0CDCC6610311Q39035868-EAC2D8A8-D956-48E2-BC50-5C430A376803Q39370605-FAD760A8-575B-4A0F-A4D8-DD2A4EBFE4A2Q39579465-2FB85C37-07B5-4DAA-9567-6D825FE7EC99Q40204681-66283797-D290-45CB-8076-F0FB568D9C5BQ40774082-CB91DD98-62EE-4ABE-AD72-C5288A85F35EQ40957877-4B80282D-1EB2-45FF-95F0-B95C5B3BC490Q41611803-B008E411-3EEC-4F23-A848-CA3FD7701FCAQ42281743-5BC66E61-8EC6-4424-9235-8DF28A7A765AQ42718483-050D2F6D-BA86-460E-83FC-17061F74735FQ43537770-60894386-B4E2-4BD1-BAF6-3599AF044E79Q43707359-27BDF373-D67A-4483-B84C-C1E1980CB1C3Q44500506-6C766D67-E66B-4424-AECB-1C846E2B4331Q44684764-4676BFDA-F0F9-4EC3-9C8F-4D0BF7D9CABDQ44840329-88DC0806-5846-4EDD-A470-C46C2A53E0E9Q46025577-2342AF34-CB40-4872-A95D-E0992ED8F79CQ46221591-832E344C-BDAC-4AC8-AAB9-ABCAFFD0F293Q46227243-BA5F2077-0788-494D-BDE8-051FDAB0F9F0Q46325359-1E33A6A8-DAD0-474E-B9AA-C2CB37EACF8D
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Stefan Glasauer
@ast
Stefan Glasauer
@en
Stefan Glasauer
@es
Stefan Glasauer
@nl
Stefan Glasauer
@sl
type
label
Stefan Glasauer
@ast
Stefan Glasauer
@en
Stefan Glasauer
@es
Stefan Glasauer
@nl
Stefan Glasauer
@sl
prefLabel
Stefan Glasauer
@ast
Stefan Glasauer
@en
Stefan Glasauer
@es
Stefan Glasauer
@nl
Stefan Glasauer
@sl
P1053
A-5898-2008
P106
P21
P2456
P31
P3829
P496
0000-0002-4313-6210