about
Motion extrapolation in the central foveaThe perceived position of moving objects: transcranial magnetic stimulation of area MT+ reduces the flash-lag effect.Suprathreshold intrinsic dynamics of the human visual system.Misperceptions in the trajectories of objects undergoing curvilinear motion.Macaque monkeys perceive the flash lag illusion.The Flash-Lag Effect as a Motion-Based Predictive Shift.Effect of speed overestimation on flash-lag effect at low luminance.Feature binding of a continuously changing object.An empirical explanation of the flash-lag effectVisual prediction: psychophysics and neurophysiology of compensation for time delays.Errors in judging "offside" in association football: test of the optical error versus the perceptual flash-lag hypothesis.Optimal smoothing in visual motion perception.The Mechanical Representation of Temporal DelaysExtrapolating movement without retinal motion.Spatial and temporal properties of the illusory motion-induced position shift for drifting stimuli.Independent coding of object motion and position revealed by distinct contingent aftereffects.Motion signals bias localization judgments: a unified explanation for the flash-lag, flash-drag, flash-jump, and Frohlich illusions.The influence of visual motion on perceived position.Stimulus dependence of the flash-lag effect.Sensorimotor integration compensates for visual localization errors during smooth pursuit eye movements.The role of attention in motion extrapolation: are moving objects 'corrected' or flashed objects attentionally delayed?Knowledge-based correction of flash-lag illusion.'Perceiving the present' as a framework for ecological explanations of the misperception of projected angle and angular size.The haptic and the visual flash-lag effect and the role of flash characteristics.Latency correction explains the classical geometrical illusions.The buzz-lag effect.Vestibular signals can distort the perceived spatial relationship of retinal stimuli.Exogenous attention during perceptual group formation and dissolution.An effect of contrast and luminance on visual representational momentum for location.A psychophysical and computational analysis of the spatio-temporal mechanisms underlying the flash-lag effect.The onset-repulsion effect and motion-induced mislocalization of a stationary object.Perceptual compression of space through position integration.Predictability and the dynamics of position processing in the flash-lag effect.The modulation of the flash-lag effect by voluntary attention.The neural correlates of motion-induced shifts in reaching.The effect of motion on tactile and visual temporal order judgments.Shorter latencies for motion trajectories than for flashes in population responses of cat primary visual cortex.The eyes have it!
P2860
Q27306517-69E68225-8DC2-44F8-8E32-29D536289696Q30528914-49FA652D-7266-43B5-A21A-D893D623D9A4Q33339423-2361E881-0897-4E9B-8166-23513C6B26D2Q34277297-0EC56C6F-45A5-417A-BFDA-70067D929C42Q34634286-BC9B0B3E-40EF-4834-8942-118B7FAF2F82Q36260905-DD7763CD-9786-40E7-A0FB-C71EA0FBF644Q36362009-13F99E64-81D9-40EB-B7D2-B565E8D83C43Q36382882-581BC424-7C27-4553-8F6E-AA53ED9623A3Q36935743-D33DEAAC-DAED-45EB-8B3D-9C0C3E3CCF38Q37163576-7FA8E9C0-0060-45F0-B40C-6A31DE648D5AQ39751511-863CBDEF-9EDB-42F0-BCBE-FB4E3E7FF949Q40704617-DCBE6FDF-EBD5-46D1-823D-175FE5231472Q41332241-DE399B7A-A8B2-42DC-9882-E845DC774964Q41714681-28F7252E-D6E6-43D6-A256-56C86A435E7FQ41816472-3EBE28FA-6C2B-4F06-B79C-1BAD2C8F768AQ42032944-CCDB3926-CEED-4B49-9CDF-650AA103BE9CQ42123273-B7DB95DC-5B36-4557-8C1A-D5768BFDA1F7Q42671979-ADE14883-5116-475F-A4DF-08541E05CF89Q43051593-6AF14475-1B7D-4860-B1E3-9314BE2EEDE4Q43607850-EBFE13B6-A693-4187-A566-B51FC1CF8BDAQ46452418-026A1C0F-4AFA-478E-A8FB-FB4EA1B0BA91Q46898921-CE421569-DA10-4E6C-BADD-C8A333D82A19Q47214363-17CB214F-2981-45AC-80EB-76CBB0FC25CCQ48316298-5721D440-175C-47E9-8DB2-8A0B370CAB96Q48447178-E93E979A-333C-4A74-B8E7-79A22D842DE9Q48691071-61E3296C-25B6-4C5D-89C9-9316BD46FB12Q49130100-6B8818A6-EF8C-48AD-8FD0-FF29A6BFA51EQ50477937-8D60A2A9-6F1D-48FB-AC7F-A97DFB149520Q50610323-AE658AD4-2765-41F1-9DDB-6987A682745AQ51851418-22FF0D45-63A3-4733-979D-55D8ECC8D801Q51946957-37869608-F005-4DB1-86CC-53D5902A6C74Q52007370-54C3B50B-E19A-4732-91D6-756E4852E4C6Q52054877-4AAF1CB2-91A3-4856-9D81-CB1AD6D0D3A7Q52088711-90ECC484-CD4A-4129-9899-4DCA2F73FA67Q52150057-BDA1FB80-10EA-42A1-A127-842EEB499821Q52950474-257795C5-A2B3-45B5-BC66-A46B9E4285ADQ52959616-2908AF62-3A0A-4C1B-A277-55172969E96AQ59030759-89F179A5-1541-4F41-A440-0CCA91358B12
P2860
description
1998 nî lūn-bûn
@nan
1998年の論文
@ja
1998年学术文章
@wuu
1998年学术文章
@zh-cn
1998年学术文章
@zh-hans
1998年学术文章
@zh-my
1998年学术文章
@zh-sg
1998年學術文章
@yue
1998年學術文章
@zh
1998年學術文章
@zh-hant
name
Moving ahead through differential visual latency.
@en
Moving ahead through differential visual latency.
@nl
type
label
Moving ahead through differential visual latency.
@en
Moving ahead through differential visual latency.
@nl
prefLabel
Moving ahead through differential visual latency.
@en
Moving ahead through differential visual latency.
@nl
P2093
P2860
P356
P1433
P1476
Moving ahead through differential visual latency.
@en
P2093
Purushothaman G
P2860
P2888
P356
10.1038/24766
P407
P50
P577
1998-12-01T00:00:00Z
P6179
1019975214