scholarly article | Q13442814 |
P356 | DOI | 10.1152/JN.1991.65.6.1346 |
P698 | PubMed publication ID | 1875244 |
P2093 | author name string | Wurtz RH | |
Duffy CJ | |||
P433 | issue | 6 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 1346-1359 | |
P577 | publication date | 1991-06-01 | |
P1433 | published in | Journal of Neurophysiology | Q1709863 |
P1476 | title | Sensitivity of MST neurons to optic flow stimuli. II. Mechanisms of response selectivity revealed by small-field stimuli | |
P478 | volume | 65 |
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Q47760536 | A Direct Demonstration of Functional Differences between Subdivisions of Human V5/MT. |
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Q28649556 | A common framework for the analysis of complex motion? Standstill and capture illusions |
Q49080169 | A comparison of visual responses to object- and ego-motion in the macaque superior temporal polysensory area |
Q33272547 | A functional architecture of optic flow in the inferior parietal lobule of the behaving monkey |
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Q46406565 | A model for encoding multiple object motions and self-motion in area MST of primate visual cortex. |
Q48008154 | A model of the combination of optic flow and extraretinal eye movement signals in primate extrastriate visual cortex. Neural model of self-motion from optic flow and extraretinal cues |
Q79185153 | A model using MT-like motion-opponent operators explains an illusory transformation in the optic flow field |
Q48383964 | A neural network model of spiral-planar motion tuning in MSTd. |
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Q48387603 | Complex motion perception and its deficits |
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Q30196605 | Development of Visual Motion Perception for Prospective Control: Brain and Behavioral Studies in Infants |
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Q48744947 | Effects of optic flow in motor cortex and area 7a. |
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Q36984196 | Estimating distance during self-motion: a role for visual-vestibular interactions |
Q49114477 | Eye position effects in monkey cortex. I. Visual and pursuit-related activity in extrastriate areas MT and MST. |
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Q30505236 | Feature integration across space, time, and orientation |
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Q36911284 | First-order analysis of optical flow in monkey brain |
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Q37056967 | Higher order visual processing in macaque extrastriate cortex |
Q79154689 | How is complex second-order motion processed? |
Q44969032 | Human cortical and behavioral sensitivity to patterns of complex motion at eccentricity |
Q73348689 | Human heading estimation during visually simulated curvilinear motion |
Q52200527 | Human heading judgments in the presence of moving objects. |
Q53933653 | Human smooth pursuit direction discrimination. |
Q33579729 | Human v6: the medial motion area |
Q82531282 | Implied motion from static photographs influences the perceived position of stationary objects |
Q41672291 | Influence of gaze rotation on the visual response of primate MSTd neurons |
Q27022607 | Insights into cortical mechanisms of behavior from microstimulation experiments |
Q30451406 | Interaction of cortical networks mediating object motion detection by moving observers. |
Q57090184 | Interaction of first- and second-order signals in the extraction of global-motion and optic-flow |
Q40817257 | Interactions between motion and form processing in the human visual system |
Q48226405 | Interocular transfer of expansion, rotation, and translation motion aftereffects |
Q48362054 | Large receptive fields for optic flow detection in humans |
Q46497157 | Large-field visual motion directly induces an involuntary rapid manual following response. |
Q52543430 | Lines and dots: characteristics of the motion integration process. |
Q48276441 | MST neuronal responses to heading direction during pursuit eye movements |
Q48376424 | MST neurons respond to optic flow and translational movement |
Q45181003 | Measurement of angular velocity in the perception of rotation |
Q44624762 | Measurement of rate of expansion in the perception of radial motion |
Q48728172 | Medial superior temporal area neurons respond to speed patterns in optic flow. |
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Q74425619 | Motion assimilation for expansion/contraction and rotation and its spatial properties |
Q41429525 | Motion-form interactions beyond the motion integration level: evidence for interactions between orientation and optic flow signals |
Q36128323 | Multisensory Integration of Visual and Vestibular Signals Improves Heading Discrimination in the Presence of a Moving Object |
Q36104231 | Navigation in space--the role of the macaque ventral intraparietal area. |
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Q49034896 | Neural dynamics of motion integration and segmentation within and across apertures |
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Q33799897 | Neural mechanisms for self-motion perception in area MST. |
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Q74715200 | Neural mechanisms underlying stereoscopic vision |
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Q33799892 | Optic flow analysis for self-movement perception. |
Q40448479 | Optic flow and autonomous navigation. |
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Q46553330 | Parametric decomposition of optic flow by humans |
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Q48959314 | Psychophysical evidence for a radial motion bias in complex motion discrimination |
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Q83100149 | Receptive-field structure of optic flow responsive Purkinje cells in the vestibulocerebellum of pigeons |
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Q57090192 | Second-order optic flow processing |
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Q40489624 | Segmentation versus integration in visual motion processing |
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Q34151506 | Spatiotemporal properties of vestibular responses in area MSTd |
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Q51645243 | The Ouchi illusion as an artifact of biased flow estimation. |
Q48957332 | The analysis of complex motion patterns by form/cue invariant MSTd neurons |
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Q41654750 | The effective reference frame in perceptual judgments of motion direction. |
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Q48958128 | The freezing rotation illusion |
Q30497628 | The initial torsional Ocular Following Response (tOFR) in humans: a response to the total motion energy in the stimulus? |
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Q38271836 | The processing of coherent global form and motion patterns without visual awareness |
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