Pages that link to "Q50110400"

The following pages link to Influence of eye position on activity in monkey superior colliculus (Q50110400):

Displaying 50 items.

• High-field FMRI reveals brain activation patterns underlying saccade execution in the human superior colliculus (Q21142675) (← links)
• Perisaccadic Updating of Visual Representations and Attentional States: Linking Behavior and Neurophysiology (Q26768206) (← links)
• What insects can tell us about the origins of consciousness (Q28597858) (← links)
• Auditory signals evolve from hybrid- to eye-centered coordinates in the primate superior colliculus (Q30452957) (← links)
• Perception of auditory, visual, and egocentric spatial alignment adapts differently to changes in eye position. (Q30477338) (← links)
• Motor-related signals in the intraparietal cortex encode locations in a hybrid, rather than eye-centered reference frame. (Q30480160) (← links)
• Using a compound gain field to compute a reach plan (Q33612616) (← links)
• Frames of reference in hemineglect: a computational approach. (Q33768513) (← links)
• Monetary reward speeds up voluntary saccades (Q33782561) (← links)
• Comparison of gain-like properties of eye position signals in inferior colliculus versus auditory cortex of primates. (Q34116917) (← links)
• Spatial updating in monkey superior colliculus in the absence of the forebrain commissures: dissociation between superficial and intermediate layers (Q34151501) (← links)
• Proprioception from a spinocerebellar perspective (Q34198546) (← links)
• Gain field encoding of the kinematics of both arms in the internal model enables flexible bimanual action. (Q34235674) (← links)
• Coordinate transformations in the visual system: how to generate gain fields and what to compute with them (Q34323433) (← links)
• The Saccadic Re-Centering Bias is Associated with Activity Changes in the Human Superior Colliculus (Q34330029) (← links)
• Gain modulation in the central nervous system: where behavior, neurophysiology, and computation meet (Q34399231) (← links)
• Experimental test of spatial updating models for monkey eye-head gaze shifts (Q34464543) (← links)
• Effects of Initial Eye Position on Saccades Evoked by Microstimulation in the Primate Superior Colliculus: Implications for Models of the SC Read-Out Process. (Q34514306) (← links)
• Control of saccadic eye movements and combined eye/head gaze shifts by the medio-posterior cerebellum (Q35106300) (← links)
• Neural control of 3-D gaze shifts in the primate. (Q35106305) (← links)
• Electrophysiological recordings in humans reveal reduced location-specific attentional-shift activity prior to recentering saccades. (Q35850695) (← links)
• Context cue-dependent saccadic adaptation in rhesus macaques cannot be elicited using color. (Q35871307) (← links)
• The liabilities of mobility: a selection pressure for the transition to consciousness in animal evolution (Q36070760) (← links)
• Navigation in space--the role of the macaque ventral intraparietal area. (Q36104231) (← links)
• Neural Network Evidence for the Coupling of Presaccadic Visual Remapping to Predictive Eye Position Updating. (Q36957971) (← links)
• Saccadic Adaptation Is Associated with Starting Eye Position (Q37039162) (← links)
• A model of multiplicative neural responses in parietal cortex (Q37276798) (← links)
• Computational models of spatial updating in peri-saccadic perception (Q37829538) (← links)
• Characteristics of Eye-Position Gain Field Populations Determine Geometry of Visual Space (Q40033887) (← links)
• A new view of hemineglect based on the response properties of parietal neurones (Q40841468) (← links)
• Decisions in motion: vestibular contributions to saccadic target selection (Q41002374) (← links)
• The superior colliculus and eye movement control. (Q41318512) (← links)
• Signal Multiplexing in Neural Circuits – The Superior Colliculus Deserves a New Look (Q41970798) (← links)
• Eye position and memory saccade related responses in substantia nigra pars reticulata (Q42455674) (← links)
• Representation of eye position in the human parietal cortex (Q42933692) (← links)
• Self-organizing task modules and explicit coordinate systems in a neural network model for 3-D saccades. (Q43613648) (← links)
• Neural network models for the gaze shift system in the superior colliculus and cerebellum (Q44690936) (← links)
• Gain modulation: a major computational principle of the central nervous system (Q46194667) (← links)
• Monkey primary somatosensory cortex has a proprioceptive representation of eye position (Q46418194) (← links)
• The proprioceptive representation of eye position in monkey primary somatosensory cortex (Q48223501) (← links)
• Functional organization within a neural network trained to update target representations across 3-D saccades (Q48362196) (← links)
• Representation of Horizontal head-on-body position in the primate superior colliculus (Q48379882) (← links)
• Priming of head premotor circuits during oculomotor preparation (Q48381083) (← links)
• Visual-auditory interactions modulate saccade-related activity in monkey superior colliculus (Q48429195) (← links)
• Commutative saccadic generator is sufficient to control a 3-D ocular plant with pulleys (Q48440172) (← links)
• Visual-Motor Transformations Required for Accurate and Kinematically Correct Saccades (Q48623008) (← links)
• Representation of Multiple Kinematic Parameters of the Cat Hindlimb in Spinocerebellar Activity (Q48623027) (← links)
• Effects of eye position upon activity of neurons in macaque superior colliculus (Q48762231) (← links)
• Intrinsic reference frames of superior colliculus visuomotor receptive fields during head-unrestrained gaze shifts (Q48776689) (← links)
• Role of monkey nucleus reticularis tegmenti pontis in the stabilization of Listing's plane (Q48860462) (← links)