about
Psychoanatomical substrates of Bálint's syndromeA direct demonstration of perceptual asynchrony in visionA review of human sensory dynamics for application to models of driver steering and speed controlSuppressive mechanisms in visual motion processing: From perception to intelligenceSensitivity of the goldfish motion detection system revealed by incoherent random dot stimuli: comparison of behavioural and neuronal dataDynamic engagement of human motion detectors across space-time coordinatesEncoding of rapid time-varying information is impaired in poor readersDiscrimination contours for moving sounds reveal duration and distance cues dominate auditory speed perception.Two distinct visual motion mechanisms for smooth pursuit: evidence from individual differencesCortical dynamics subserving visual apparent motionCortical Membrane Potential Dynamics and Laminar Firing during Object Motion.Sensory adaptation as optimal resource allocationShort-latency ocular following in humans is dependent on absolute (rather than relative) binocular disparityThe human vertical translational vestibulo-ocular reflex. Normal and abnormal responses.Enhanced local processing of dynamic visual information in autism: evidence from speed discrimination.A century of Gestalt psychology in visual perception: II. Conceptual and theoretical foundations.Influence of correspondence noise and spatial scaling on the upper limit for spatial displacement in fully-coherent random-dot kinematogram stimuliDifferential brain activity states during the perception and nonperception of illusory motion as revealed by magnetoencephalography.Enhancement of glossiness perception by retinal-image motion: additional effect of head-yoked motion parallax.Neural networks that learn temporal sequences by selection.A motion area in human visual cortex.Abnormal visual motion processing in schizophrenia: a review of research progress.Decoding seen and attended motion directions from activity in the human visual cortex.Compromised speed discrimination among schizophrenia patients when viewing smooth pursuit targetsMechanisms for Rapid Adaptive Control of Motion Processing in Macaque Visual Cortex.Peripheral vision of youths with low vision: motion perception, crowding, and visual search.Temporal Evolution of Spatial Computations for Visuomotor Control.Default perception of high-speed motion.The mirror neuron system: grasping others' actions from birth?Differential activation patterns of occipital and prefrontal cortices during motion processing: evidence from normal and schizophrenic brains.Saccadic and Postsaccadic Disconjugacy in Zebrafish Larvae Suggests Independent Eye Movement ControlThe motion/pursuit law for visual depth perception from motion parallax.Sensory optimization by stochastic tuning.Implementation of a low-cost mobile devices to support medical diagnosis.Visual pathways serving motion detection in the mammalian brain.Asynchrony in visual consciousness and the possible involvement of attentionModularity in the motion system: independent oculomotor and perceptual processing of brief moving stimuli.A dissociation between reaction time to sinusoidal gratings and temporal-order judgment.The statistics of local motion signals in naturalistic movies.The independence of eye movements in a stomatopod crustacean is task dependent
P2860
Q24672451-DFAF82F9-9010-4E13-9228-1C38DFB08B09Q24673227-25A2026A-9E39-4819-9D60-7425CC72D145Q26752995-B4102987-3B21-437C-9B26-65609B4C9853Q26795622-207B87E9-E9AD-4DCB-AE25-CF3CF4D62CB7Q27333853-52B9557E-78C3-4012-B923-023D7C382ECCQ28658006-51F0601C-053A-4A4B-9194-A35912323B58Q30357175-B3829297-4B5D-4FCC-A888-9636C19E5879Q30433507-5CBBF95D-FCCB-4C00-9CF8-734095E5D477Q30483945-6FEF6AE4-ECE2-4BD2-8BAB-3889F951442DQ30484576-A644558D-F53D-433A-B845-BD86CF266112Q30490148-BD7AECF3-AC5E-4847-B6BB-60F0C0DF4211Q30537758-27044FAF-51E9-4973-9AC3-57F676B32B1EQ31141942-AF135EE2-B273-4BDE-B270-0F8D3546835FQ33805399-6EF638ED-9477-496E-BFE6-E002C94ECAC2Q33888780-3800A627-0966-4446-B1F7-5B54C9FCA96FQ34291260-20FE8A41-72D1-4A05-A4FC-82DA72EA285FQ34440789-773CE7DA-4EF7-4293-9DE1-3604F28AE9D1Q34450163-FB5B97A7-1108-423D-98E4-40BF1CB12CD9Q34555897-2D6614EE-2841-4E4D-BE14-4DB8FAC672E0Q34617551-43F1DA98-2272-4660-913A-9EF231B1BAA9Q34671860-CFB71DA1-1169-46B6-8E4A-848E261F4A92Q35065431-2ACEBDF4-FDF4-4334-A6B5-4DE185A95AEAQ35127252-5991A1B6-BA61-443C-9066-A92057CCF77CQ35188677-4BCBE2E1-45F3-42BF-AAD1-F44960BDF6A3Q35851519-2B510B02-9A84-411E-8D3D-630191D8EEB5Q36190816-D1F75268-0439-4799-A393-33298C1898CCQ36610285-10167CD4-57B7-467C-80A8-69D70C0044AEQ36798964-56561D8F-9A7C-4A38-883F-FEF9C5E44AB6Q36903908-064ADCB1-59A2-4CAC-91AF-AA9123E011EAQ36948546-1173369C-6A29-46AB-9292-3FACFDDC170FQ37310042-9010C3D3-9E4B-472E-91F7-9208346F61FEQ37328284-C7556B95-A9FD-4061-BB51-0C10389418EFQ37423368-5870F30A-59BA-479B-B2F3-052EB1F259B8Q37486861-9E739E4E-FB2B-4523-81A8-860F595C44ACQ37982694-576C8D59-0710-40F4-B5E5-6B0405D0E875Q38042613-803AFEFF-3457-49D7-B294-B689D914C370Q38550055-82B8D177-876B-4486-A9CB-FB5F7D07FCEDQ38570755-D2286238-7BB8-4E37-BDAF-BC9B7BF682F0Q38765676-80692863-E1DE-4E4F-92EE-097394AAB605Q38868386-D366195D-4E2D-46E3-9DCB-11F8B2ACC773
P2860
description
1985 nî lūn-bûn
@nan
1985年の論文
@ja
1985年学术文章
@wuu
1985年学术文章
@zh-cn
1985年学术文章
@zh-hans
1985年学术文章
@zh-my
1985年学术文章
@zh-sg
1985年學術文章
@yue
1985年學術文章
@zh
1985年學術文章
@zh-hant
name
Biological image motion processing: a review.
@en
Biological image motion processing: a review.
@nl
type
label
Biological image motion processing: a review.
@en
Biological image motion processing: a review.
@nl
prefLabel
Biological image motion processing: a review.
@en
Biological image motion processing: a review.
@nl
P1433
P1476
Biological image motion processing: a review.
@en
P2093
Nakayama K
P304
P356
10.1016/0042-6989(85)90171-3
P577
1985-01-01T00:00:00Z