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Apparent motion from outside the visual field, retinotopic cortices may register extra-retinal positionsLooming sensitive cortical regions without V1 input: evidence from a patient with bilateral cortical blindnessThe Role of Feature Tracking in the Furrow Illusion.Rapid Motion Adaptation Reveals the Temporal Dynamics of Spatiotemporal Correlation between ON and OFF PathwaysCortical fMRI activation produced by attentive tracking of moving targetsAuditory and visual attention-based apparent motion share functional parallelsA common framework for the analysis of complex motion? Standstill and capture illusionsContribution of Visuospatial and Motion-Tracking to Invisible Motion.Audiovisual associations alter the perception of low-level visual motion.Rapid volitional control of apparent motion during percept generationStatic sound timing alters sensitivity to low-level visual motion.Auditory object salience: human cortical processing of non-biological action sounds and their acoustic signal attributes.Interaction of perceptual grouping and crossmodal temporal capture in tactile apparent-motion.Two distinct visual motion mechanisms for smooth pursuit: evidence from individual differencesShifting selection may control apparent motion.Feature- and Face-Exchange illusions: new insights and applications for the study of the binding problemEffects of spatial cues on color-change detection in humans.Attention-driven discrete sampling of motion perceptionThe continuous Wagon wheel illusion and the 'when' pathway of the right parietal lobe: a repetitive transcranial magnetic stimulation study.More than one way to see it move?Dynamic Object Representations in Infants with and without Fragile X Syndrome.Evidence for long-range spatiotemporal interactions in infant and adult visual cortexfMR-Adaptation Reveals Invariant Coding of Biological Motion on the Human STSThe duration of the motion aftereffect following adaptation to first-order and second-order motion.Initial ocular following in humans depends critically on the fourier components of the motion stimulus.Initial ocular following in humans: a response to first-order motion energy.Illusory motion perception in blindsight.The evolution of explanations of a perceptual phenomenon: a case history using the Ternus effect.Upper visual field advantage in localizing a target among distractorsEffects of crowding and attention on high-levels of motion processing and motion adaptation.Functional MRI reveals spatially specific attentional modulation in human primary visual cortexBottom-up attention: pulsed PCA transform and pulsed cosine transformResolution of spatial and temporal visual attention in infants with fragile X syndrome.Enhanced integration of motion information in children with autism.Direction-selective patterns of activity in human visual cortex suggest common neural substrates for different types of motionUnifying account of visual motion and position perceptionVisual Benefits in Apparent Motion Displays: Automatically Driven Spatial and Temporal Anticipation Are Partially DissociatedA relational structure of voluntary visual-attention abilities.The vergence eye movements induced by radial optic flow: some fundamental properties of the underlying local-motion detectors.Task-dependent influences of attention on the activation of human primary visual cortex
P2860
Q21133943-C73F880A-5F18-4FC8-9614-C88FB4CA56B2Q27308762-D13E2584-F2B4-482B-95C6-6E230EA53CCFQ27316458-CC7FC9E4-C9D6-4068-AED2-B20307D5E616Q27343120-2DD1A07D-2634-4C8B-8B6A-BCD49133B769Q28289051-73D78AF8-6DED-4A66-AA9D-BA86C815B7F9Q28297749-2C7596F6-539E-4472-B32F-701769978A97Q28649556-CD837FDC-E474-497F-9E00-FCED733BDFAEQ30373739-6F39A211-4CD1-430E-BFC0-E2AAB734A19FQ30414396-D3ECF7E7-A13F-4951-A3A7-11A77F7ECF5FQ30448175-37226FD0-F8CE-4574-B1E0-B815901884C8Q30460864-79008446-FBB9-42B8-9B53-6AF371285A30Q30467662-FD538DF3-CA2F-4AA8-A1E6-45FBC2340642Q30476505-F6C4F040-8608-4C52-B112-4D6FA8000E6FQ30483945-D06F822E-302E-407B-A1A1-FC6A92EF4C85Q30544123-84FAC61F-8B7D-437F-B0C3-6AE01462ACB0Q30593011-05C7A328-4DBA-4A73-B065-7B4FBB14A2CEQ30665374-4F3F2EAA-25B6-4F9C-9B6C-C57A0023BD91Q30856838-EAB0A6CB-21FB-46D0-A133-51A6A39A0F2EQ33358126-5D28D082-9A5E-4D95-8981-7B83D9919BD3Q33679409-58E0CD77-80EC-4639-9DA8-441949D9DCD5Q33710840-FCD27350-5973-4478-9870-8282CFD3F0E6Q33816060-A01124EA-4FFF-4274-94AE-33F6B0708761Q33817875-32E67491-1026-412B-B5AA-6A9CD6C20BF7Q34321569-5DFB9BC7-262A-4FB9-93F0-C21F717F071AQ34411288-637EF0E4-C8DA-45FB-8846-E095906FC971Q34482303-9FB51318-38C6-4D50-9017-F2AD48C46AA5Q34490714-31BA7801-C1F9-46B1-AD5C-22469F4E41ADQ34546850-070E4AB4-CEA2-4B0A-ACFB-FB23F1C278A4Q34600303-2B32D2A2-4271-4435-8806-7B9CE8CBC0E7Q35007213-78B096F0-9D0B-4A59-8B3A-94BB3FDBD37BQ35008691-4BB07F29-30F3-4E05-943D-F26CC3DD1612Q35355398-AE197879-04BF-4FBE-A690-D7BA59C9AC2CQ35540079-0CD3A17C-2D1A-42F3-9B46-974E18AEEC51Q35572509-9BAB42E0-8BC8-4AB5-97DA-848A7529D95CQ35737121-F3E7D464-C3EB-47CB-B9D2-B07ECEDD8863Q35818703-99FC9AF0-8AAD-40A9-9DF4-A3AF1131188EQ35856782-564F707B-610B-4E20-BEB6-836FA717B903Q36005710-C524E69B-EDD2-485A-8583-28988937EFA1Q36151640-73B65A31-19F7-409F-9E7E-C0BDA16B4E0FQ36312174-DCA442C8-EFCF-4843-B897-0999984E1D57
P2860
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年学术文章
@wuu
1992年学术文章
@zh
1992年学术文章
@zh-cn
1992年学术文章
@zh-hans
1992年学术文章
@zh-my
1992年学术文章
@zh-sg
1992年學術文章
@yue
1992年學術文章
@zh-hant
name
Attention-based motion perception.
@en
Attention-based motion perception.
@nl
type
label
Attention-based motion perception.
@en
Attention-based motion perception.
@nl
prefLabel
Attention-based motion perception.
@en
Attention-based motion perception.
@nl
P356
P1433
P1476
Attention-based motion perception.
@en
P2093
Cavanagh P
P304
P356
10.1126/SCIENCE.1523411
P407
P577
1992-09-01T00:00:00Z