about
Figure-ground organization and the emergence of proto-objects in the visual cortexInsect stereopsis demonstrated using a 3D insect cinema.Adaptive Neuromorphic Circuit for Stereoscopic Disparity Using Ocular Dominance Map.Separating fusion from rivalrySimulating the cortical 3D visuomotor transformation of reach depthPerceptual learning and top-down influences in primary visual cortex.A stereoscopic look at visual cortex.Adaptation to natural binocular disparities in primate V1 explained by a generalized energy modelCortical metabolic activity matches the pattern of visual suppression in strabismusSmall or far away? Size and distance perception in the praying mantis.Temporal evolution of pattern disparity processing in humansAbsolute Depth Sensitivity in Cat Primary Visual Cortex under Natural Viewing ConditionsParietal reach region encodes reach depth using retinal disparity and vergence angle signals.Cortical correlates of stereoscopic depth produced by temporal delay.Temporal events in cyclopean visionSeeing via Miniature Eye Movements: A Dynamic Hypothesis for Vision.Binocular eye movement control and motion perception: what is being tracked?Blur and disparity are complementary cues to depth.Vergence eye movements in response to binocular disparity without depth perception.Neurons in parafoveal areas V1 and V2 encode vertical and horizontal disparities.Integration of retinal disparity and fixation-distance related signals toward an egocentric coding of distance in the posterior parietal cortex of primates.Monocular cells without ocular dominance columns.Quantitative characterization of disparity tuning in ventral pathway area V4.The neural processing of 3-D visual information: evidence from eye movements.Stimulus dependence of disparity coding in primate visual area V4.Comparing perceptual signals of single V5/MT neurons in two binocular depth tasks.Horizontal-disparity tuning of neurons in the visual forebrain of the behaving barn owl.Beyond Rehabilitation of Acuity, Ocular Alignment, and Binocularity in Infantile Strabismus
P2860
Q26852230-D8BF4F86-01DB-45B1-9AAC-FD867ED79CFCQ27302975-66644E70-702E-4110-9A96-05C776D57B06Q27349243-6C10E3BE-0CDE-43FA-B8E5-12EF3EF9727DQ33940231-9D59A18E-0C3B-4842-A34A-DF06A328B43DQ34345884-3A11A537-55B3-4100-8589-93FCFD73785AQ34546067-AAFD3CCD-2711-4ACB-8B83-26D49711B91FQ36073398-06B39F20-58D4-4D3B-9DCE-32EFC792B665Q36591900-C0648977-A677-48A8-9D9E-C185532234F9Q36783462-A11ADD46-8251-45F2-9F43-CA564FCA1A57Q36991196-C12C1646-50D5-4EFD-A752-681CCA0CB2E6Q37014095-870A1295-6F5F-4D30-AC42-AE8248B5BCBDQ37153368-1ED392F4-E31E-4772-976A-8AFF57E59D0DQ37298792-0F1BDA8F-A7EA-420F-B951-523F51503755Q37332686-8453C65D-648C-4C84-99CB-D886601569F4Q37667309-81C9CAB0-AB09-41FD-BFF3-DDC25DB039A1Q41358521-4B9A55D4-EBD9-4BA4-817F-D065E4B2575BQ42027636-DD721EDB-284D-4FEF-B14B-1EF4CE958C9BQ42064899-F29A1162-B7BD-4FF4-AB27-33B0BB1365A4Q42664212-E5E9755E-404C-4C0B-A7D4-878861718DB0Q44211182-E6337601-4184-4203-A680-445A6BDB8449Q44762606-8144AAAA-E304-40BE-A134-CAB3DDC00E3AQ46429630-77314EA6-8AEC-4D5D-BEB3-606B58412BFDQ48828407-6BBAC701-F3E0-41AD-9F84-BB7CFD135EDBQ49093950-9416D14A-3BB5-4A0E-997B-A82A7AEC2E24Q52087801-4A77C1AE-15A3-4A17-A7C6-2342444CA57DQ53640880-D7BE4ACA-E346-41C2-99B5-37A0B7F0014EQ53797213-0CB2FA78-57AA-437A-8F2B-1C8AE1F893CFQ57175487-93A05433-0063-4578-9D37-281CF065DB1D
P2860
description
1995 nî lūn-bûn
@nan
1995年の論文
@ja
1995年学术文章
@wuu
1995年学术文章
@zh-cn
1995年学术文章
@zh-hans
1995年学术文章
@zh-my
1995年学术文章
@zh-sg
1995年學術文章
@yue
1995年學術文章
@zh
1995年學術文章
@zh-hant
name
Mechanisms of stereopsis in monkey visual cortex.
@en
type
label
Mechanisms of stereopsis in monkey visual cortex.
@en
prefLabel
Mechanisms of stereopsis in monkey visual cortex.
@en
P356
P1433
P1476
Mechanisms of stereopsis in monkey visual cortex.
@en
P2093
P304
P356
10.1093/CERCOR/5.3.193
P577
1995-05-01T00:00:00Z