about
On the perception of probable things: neural substrates of associative memory, imagery, and perceptionThe Role of Feature Tracking in the Furrow Illusion.The Elementary Operations of Human Vision Are Not Reducible to Template-MatchingRapid Motion Adaptation Reveals the Temporal Dynamics of Spatiotemporal Correlation between ON and OFF PathwaysPerformance characterization of Watson Ahumada motion detector using random dot rotary motion stimuliDynamic engagement of human motion detectors across space-time coordinatesOn the cyclic nature of perception in vision versus auditionTwo distinct visual motion mechanisms for smooth pursuit: evidence from individual differencesThe initial torsional Ocular Following Response (tOFR) in humans: a response to the total motion energy in the stimulus?Neural correlates of illusory motion perception in Drosophila.Symmetries in stimulus statistics shape the form of visual motion estimators.Flies and humans share a motion estimation strategy that exploits natural scene statistics.The contrast sensitivity function of the praying mantis Sphodromantis lineola.Peripheral Processing Facilitates Optic Flow-Based Depth Perception.Invisible noise obscures visible signal in insect motion detectionAttention-driven discrete sampling of motion perceptionSpatio-temporal interpolation is accomplished by binocular form and motion mechanismsComputational models of cortical visual processingMore than one way to see it move?Evidence for long-range spatiotemporal interactions in infant and adult visual cortexStructure of visual perception.Two motion perception mechanisms revealed through distance-driven reversal of apparent motion.Direction selectivity of blowfly motion-sensitive neurons is computed in a two-stage process.Motion perception of saccade-induced retinal translationInfluence of correspondence noise and spatial scaling on the upper limit for spatial displacement in fully-coherent random-dot kinematogram stimuliModulation of V1 spike response by temporal interval of spatiotemporal stimulus sequence.Visual motion perceptionSpatiotemporal structure of nonlinear subunits in macaque visual cortex.A cerebellar model for predictive motor control tested in a brain-based deviceInitial ocular following in humans: a response to first-order motion energy.Construction of direction selectivity through local energy computations in primary visual cortex.Construction and evaluation of an integrated dynamical model of visual motion perceptionINSECT FLIGHT. Luminance-dependent visual processing enables moth flight in low light.Direction-selective patterns of activity in human visual cortex suggest common neural substrates for different types of motionSeeing and Feeling Motion: Canonical Computations in Vision and TouchThe vergence eye movements induced by radial optic flow: some fundamental properties of the underlying local-motion detectors.A Possible Role for End-Stopped V1 Neurons in the Perception of Motion: A Computational Model.Spatial summation properties of the human ocular following response (OFR): dependence upon the spatial frequency of the stimulusNonlinear circuits for naturalistic visual motion estimation.Effect of speed overestimation on flash-lag effect at low luminance.
P2860
Q27008876-998B172E-5321-473F-AD54-46F6E4E69804Q27316458-324C96B2-B57D-4F11-9644-4446B6A99D12Q27317484-BE053D69-58F6-40C5-B9BE-CBB23B4103FAQ27343120-69709D71-FC1C-496A-8B7D-D33DB108E877Q27355427-97C262B5-6B9E-40C7-88BF-49DAC0D3E603Q28658006-7C07ECC5-219E-4450-BACE-D0801B20929DQ30412723-2B9C7138-AB40-424A-9800-D8014C9A1FB4Q30483945-C1902C6F-6382-4605-B164-6805763298A0Q30497628-2C5E4ADA-3502-4F85-881E-20C47B990883Q30500971-80836FFE-BC68-4496-9598-57A6EBC392C2Q30503266-0C37F8CA-513B-46F7-959D-277185AB8A51Q30576505-ED87B35F-FC1E-48CF-A975-10020971F068Q30658584-E4328C8D-8BA4-4C5A-B4E9-00733E0E399BQ30825068-78936722-712E-4F32-A73F-C093AD15426BQ30855751-BC020CED-FFD9-4DDE-BCF1-3A1B82AA7ED8Q30856838-BC58B6AB-D8CC-4312-BBE3-895C2A81A4E4Q33275973-62A2D90D-4EC9-42D0-93F4-844AD6FEA84DQ33566247-0B43BF47-326A-4D9F-B280-464B0F1F8AF8Q33679409-4BBF5A76-71FB-4F88-B08B-7A65F2705D92Q33816060-C2C28D61-3B43-47E1-AA81-74C7DB53FFEAQ33833279-72418E29-A7CD-49A8-8234-DE7622FA05BAQ33851699-B2EEC940-5D50-49FF-9F36-81257EFA6726Q33917143-6FC9E0F0-3F21-4F91-B064-ED303A9FA35AQ34381646-F5EEB76B-AC9C-4FBD-B17F-EBA14230E125Q34440789-069C2B48-AB51-4A25-A410-618AB7236592Q34455295-F9952F7C-BF09-4ACA-BF3C-EE584E314E92Q34466995-2B902C17-D5FB-4779-9667-933EEED4F6A9Q34478052-F31C700C-4C26-4EE9-87B0-0109CDDC5ED9Q34480324-B6A9F3A1-B289-423A-82C6-A8211B8CC2A8Q34482303-17FD5076-A322-46A6-85EF-BA8918C4C57EQ34648196-755226BE-D4D9-4B49-9784-A93900EDE498Q35639023-8AC372BC-3771-420C-9CBA-ACE45EAEB500Q35662010-9C5D5B48-807B-4700-92B3-F9F11B3F48DFQ35737121-F71312C0-10FD-4C84-94C7-64672AFB2C16Q35791679-4CF82680-DAE0-47C5-8D01-53904AC97937Q36151640-5D2DC540-D7F3-4642-9361-C6B37E7DDE96Q36163953-CD78361B-EE15-4811-8D4A-24FE45E62360Q36197628-B5FC81B7-4797-4AE5-A213-BBC2D182E68DQ36330942-7A754BA6-5A09-4B5A-9D8A-B7A42B8348C8Q36362009-1C4E45ED-FCDC-44F4-A231-7345BB2955BD
P2860
description
1985 nî lūn-bûn
@nan
1985 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
1985 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
1985年の論文
@ja
1985年論文
@yue
1985年論文
@zh-hant
1985年論文
@zh-hk
1985年論文
@zh-mo
1985年論文
@zh-tw
1985年论文
@wuu
name
Elaborated Reichardt detectors.
@ast
Elaborated Reichardt detectors.
@en
Elaborated Reichardt detectors.
@nl
type
label
Elaborated Reichardt detectors.
@ast
Elaborated Reichardt detectors.
@en
Elaborated Reichardt detectors.
@nl
prefLabel
Elaborated Reichardt detectors.
@ast
Elaborated Reichardt detectors.
@en
Elaborated Reichardt detectors.
@nl
P356
P1476
Elaborated Reichardt detectors.
@en
P2093
Sperling G
van Santen JP
P304
P356
10.1364/JOSAA.2.000300
P577
1985-02-01T00:00:00Z