| scholarly article | Q13442814 |
| P356 | DOI | 10.1152/JN.1994.71.5.1597 |
| P698 | PubMed publication ID | 8064337 |
| P50 | author | Guy A Orban | Q57755466 |
| P2093 | author name string | H Maes | |
| L Lagae | |||
| D K Xiao | |||
| S Raiguel | |||
| P433 | issue | 5 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Macaca | Q177601 |
| P304 | page(s) | 1597-1626 | |
| P577 | publication date | 1994-05-01 | |
| P1433 | published in | Journal of Neurophysiology | Q1709863 |
| P1476 | title | Responses of macaque STS neurons to optic flow components: a comparison of areas MT and MST | |
| P478 | volume | 71 |
| Q33688724 | 14C-deoxyglucose mapping of the monkey brain during reaching to visual targets. |
| Q46044246 | 3D Visual Response Properties of MSTd Emerge from an Efficient, Sparse Population Code |
| Q47760536 | A Direct Demonstration of Functional Differences between Subdivisions of Human V5/MT. |
| Q33272547 | A functional architecture of optic flow in the inferior parietal lobule of the behaving monkey |
| Q74640288 | A global process in motion segregation |
| Q44671469 | A higher order motion region in human inferior parietal lobule: evidence from fMRI. |
| Q48819974 | A laterally interconnected neural architecture in MST accounts for psychophysical discrimination of complex motion patterns |
| 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 |
| Q48383964 | A neural network model of spiral-planar motion tuning in MSTd. |
| Q30500358 | Action observation circuits in the macaque monkey cortex |
| Q47868523 | Adaptive temporal integration of motion in direction-selective neurons in macaque visual cortex. |
| Q93104472 | An enhanced role for right hV5/MT+ in the analysis of motion in the contra- and ipsi-lateral visual hemi-fields |
| Q30490146 | Attention reshapes center-surround receptive field structure in macaque cortical area MT. |
| Q52023846 | Basis functions for object-centered representations. |
| Q38651493 | Binocular Mechanisms of 3D Motion Processing |
| Q48515383 | Charting the lower superior temporal region, a new motion-sensitive region in monkey superior temporal sulcus. |
| Q37119670 | Clustering of self-motion selectivity and visual response properties in macaque area MSTd |
| Q49156208 | Coding of shape and position in macaque lateral intraparietal area. |
| Q36061184 | Competitive Dynamics in MSTd: A Mechanism for Robust Heading Perception Based on Optic Flow |
| Q51647994 | Computation of surface slant from optic flow: orthogonal components of speed gradient can be combined. |
| Q64063800 | Contributions of binocular and monocular cues to motion-in-depth perception |
| Q38269115 | Convergence of vestibular and visual self-motion signals in an area of the posterior sylvian fissure |
| Q48315151 | Descending Neurons in Drosophila: Bridging the Gap between Vision and Action. |
| Q53554931 | Development of cortical responses to optic flow. |
| Q27305008 | Differential Responses to a Visual Self-Motion Signal in Human Medial Cortical Regions Revealed by Wide-View Stimulation |
| Q81038608 | Differential aging of motion processing mechanisms: evidence against general perceptual decline |
| Q47774967 | Differential processing of the direction and focus of expansion of optic flow stimuli in areas MST and V3A of the human visual cortex. |
| Q34533925 | Discerning nonrigid 3D shapes from motion cues |
| Q48961054 | Distinct cortical responses to 2D figures defined by motion contrast |
| Q46636611 | Diverse suppressive influences in area MT and selectivity to complex motion features. |
| Q58758973 | Driving Ability in Alzheimer Disease Spectrum: Neural Basis, Assessment, and Potential Use of Optic Flow Event-Related Potentials |
| Q35610146 | Driving strategy alters neuronal responses to self-movement: cortical mechanisms of distracted driving |
| Q43643791 | Early discrimination of coherent versus incoherent motion by multiunit and synaptic activity in human putative MT+. |
| Q35007213 | Effects of crowding and attention on high-levels of motion processing and motion adaptation |
| Q48744947 | Effects of optic flow in motor cortex and area 7a. |
| Q33858024 | Electrical microstimulation of cortical area MST biases heading perception in monkeys |
| Q40850661 | Emulating the visual receptive-field properties of MST neurons with a template model of heading estimation. |
| Q48738212 | Estimating cortical activity from VEPS with the shrinking ellipsoid inverse |
| Q39421054 | Fixation could simplify, not complicate, the interpretation of retinal flow |
| Q48467283 | Flicker in the visual background impairs the ability to process a moving visual stimulus |
| Q48188619 | Generalized deficits in visual selective attention after V4 and TEO lesions in macaques |
| Q39627580 | Global Motion Processing in Human Visual Cortical Areas V2 and V3. |
| Q77793002 | Global motion processing is not tuned for binocular disparity |
| Q48824982 | Global speed averaging is tuned for binocular disparity. |
| Q91689385 | Going with the Flow: The Neural Mechanisms Underlying Illusions of Complex-Flow Motion |
| Q42075530 | Graded classes of cortical connections: quantitative analyses of laminar projections to motion areas of cat extrastriate cortex. |
| Q52975448 | Grouping of optic flow stimuli during binocular rivalry is driven by monocular information. |
| Q30513907 | Hierarchical processing of complex motion along the primate dorsal visual pathway |
| Q37056967 | Higher order visual processing in macaque extrastriate cortex |
| Q60042473 | Human Cortical Regions Involved in Extracting Depth from Motion |
| Q48943456 | Human brain regions involved in heading estimation. |
| Q44969032 | Human cortical and behavioral sensitivity to patterns of complex motion at eccentricity |
| Q73348689 | Human heading estimation during visually simulated curvilinear motion |
| Q33579729 | Human v6: the medial motion area |
| Q73090881 | Image features selected by neurons of the cat primary visual cortex |
| Q41672291 | Influence of gaze rotation on the visual response of primate MSTd neurons |
| Q36287160 | Interacting competitive selection in attention and binocular rivalry |
| Q71301316 | Interactions between self-motion and depth perception in the processing of optic flow |
| Q48362054 | Large receptive fields for optic flow detection in humans |
| Q52543430 | Lines and dots: characteristics of the motion integration process. |
| Q73689756 | Magnetic response of human extrastriate cortex in the detection of coherent and incoherent motion |
| Q48728172 | Medial superior temporal area neurons respond to speed patterns in optic flow. |
| Q52952497 | Motion distorts perceived depth. |
| Q52537499 | Motion parallax enables depth processing for action in a visual form agnosic when binocular vision is unavailable. |
| Q41429525 | Motion-form interactions beyond the motion integration level: evidence for interactions between orientation and optic flow signals |
| Q36984032 | Multimodal coding of three-dimensional rotation and translation in area MSTd: comparison of visual and vestibular selectivity |
| Q40841540 | Multimodal integration for the representation of space in the posterior parietal cortex |
| Q48334491 | Multiple pathways carry signals from short-wavelength-sensitive ('blue') cones to the middle temporal area of the macaque. |
| Q49069701 | Multisensory cortical signal increases and decreases during vestibular galvanic stimulation (fMRI). |
| Q34434164 | Neural analysis of visual information during locomotion |
| Q41518932 | Neural mechanisms of visual motion perception in primates |
| Q48162421 | Neural responses in motor cortex and area 7a to real and apparent motion |
| Q71684267 | Neural responses to velocity gradients in macaque cortical area MT |
| Q51933745 | Nonlinear, binocular interactions underlying flow field selectivity of a motion-sensitive neuron. |
| Q47850893 | Optic flow detection is not influenced by visual-vestibular congruency |
| Q48911947 | Optic flow processing in monkey STS: a theoretical and experimental approach. |
| Q48257343 | Optic flow selectivity in the anterior superior temporal polysensory area, STPa, of the behaving monkey. |
| Q48409799 | Optic flow: A brain region devoted to optic flow analysis? |
| Q46553330 | Parametric decomposition of optic flow by humans |
| Q48128439 | Perception of self-motion from visual flow |
| Q44976239 | Perception of three-dimensional structure from motion |
| Q49162435 | Processing of kinetically defined boundaries in areas V1 and V2 of the macaque monkey |
| Q44211135 | Pursuit speed compensation in cortical area MSTd |
| Q61805801 | Rapid and specific processing of person-related information in human anterior temporal lobe |
| Q83100149 | Receptive-field structure of optic flow responsive Purkinje cells in the vestibulocerebellum of pigeons |
| Q37199478 | Representation of eye movements and stimulus motion in topographically organized areas of human posterior parietal cortex |
| Q48180564 | Response latencies of neurons in visual areas MT and MST of monkeys with striate cortex lesions |
| Q52582835 | Response latency of a motion-sensitive neuron in the fly visual system: dependence on stimulus parameters and physiological conditions. |
| Q48094447 | Response latency of macaque area MT/V5 neurons and its relationship to stimulus parameters |
| Q52125349 | Response of MSTd neurons to simulated 3D orientation of rotating planes. |
| Q48433805 | Response to motion in extrastriate area MSTl: center-surround interactions |
| Q73650364 | Responses in ventral intraparietal area of awake macaque monkey to optic flow patterns corresponding to rotation of planes in depth can be explained by translation and expansion effects |
| Q57041177 | Responses of MST neurons to plaid stimuli |
| Q46175122 | Responses of MT and MST neurons to one and two moving objects in the receptive field |
| Q52075421 | Responses to continuously changing optic flow in area MST. |
| Q48180552 | Similarities and differences in motion processing between the human and macaque brain: evidence from fMRI. |
| Q33772485 | Spatial heterogeneity of inhibitory surrounds in the middle temporal visual area |
| Q32108829 | Temporal cortex activation in humans viewing eye and mouth movements. |
| Q51204571 | The 'ecological' probability density function for linear optic flow: implications for neurophysiology. |
| Q60042453 | The Selectivity of Neurons in the Macaque Fundus of the Superior Temporal Area for Three-Dimensional Structure from Motion |
| Q48957332 | The analysis of complex motion patterns by form/cue invariant MSTd neurons |
| Q34080505 | The distinct modes of vision offered by feedforward and recurrent processing |
| Q80649965 | The effect of middle temporal spike phase on sensory encoding and correlates with behavior during a motion-detection task |
| Q46599826 | The effect of spatial layout on motion segmentation |
| Q52213828 | The perception and discrimination of speed in complex motion. |
| Q36151640 | The vergence eye movements induced by radial optic flow: some fundamental properties of the underlying local-motion detectors |
| Q46283045 | Translation speed compensation in the dorsal aspect of the medial superior temporal area. |
| Q30653446 | Visual motion and the human brain: what has neuroimaging told us? |
| Q48706578 | Visual motion processing investigated using contrast agent-enhanced fMRI in awake behaving monkeys. |
| Q48468448 | Visual selectivity for heading in monkey area MST. |
| Q44868881 | Which animal model for understanding human navigation in a three-dimensional world? |
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