about
Breaking cover: neural responses to slow and fast camouflage-breaking motionReconstructing visual experiences from brain activity evoked by natural moviesInfrared neural stimulation: a new stimulation tool for central nervous system applications.A sparse representation-based algorithm for pattern localization in brain imaging data analysisSplenium of corpus callosum: patterns of interhemispheric interaction in children and adultsAn Orientation Map for Motion Boundaries in Macaque V2.The role of human ventral visual cortex in motion perceptionIn vivo evidence of functional and anatomical stripe-based subdivisions in human V2 and V3Motion direction biases and decoding in human visual cortexThe mechanism for processing random-dot motion at various speeds in early visual cortices.Progressive thinning of visual cortex in primary open-angle glaucoma of varying severityFunctional magnetic resonance imaging of awake monkeys: some approaches for improving imaging qualityIdentification of cortical lamination in awake monkeys by high resolution magnetic resonance imaging.The Representation of Orientation in Macaque V2: Four Stripes Not Three.The physiology and psychophysics of the color-form relationship: a review.Representation of motion onset and offset in an augmented Barlow-Levick model of motion detection.Layer-specific BOLD activation in awake monkey V1 revealed by ultra-high spatial resolution functional magnetic resonance imaging.Spatial structure of neuronal receptive field in awake monkey secondary visual cortex (V2).Intrinsic signal optical imaging evidence for dorsal V3 in the prosimian galago (Otolemur garnettii).Quantitative inference of population response properties across eccentricity from motion-induced maps in macaque V1Two projection streams from macaque V1 to the pale cytochrome oxidase stripes of V2.Optogenetics through windows on the brain in the nonhuman primate.Smooth versus Textured Surfaces: Feature-Based Category Selectivity in Human Visual CortexDecision-Related Activity in Macaque V2 for Fine Disparity Discrimination Is Not Compatible with Optimal Linear Readout.Recurrent Network Dynamics; a Link between Form and Motion.Toward a unified theory of visual area V4.Feature integration and object representations along the dorsal stream visual hierarchy.Pushing the limits of ultra-high resolution human brain imaging with SMS-EPI demonstrated for columnar level fMRI.Sensitivity and specificity considerations for fMRI encoding, decoding, and mapping of auditory cortex at ultra-high field.Evaluation of SLIce Dithered Enhanced Resolution Simultaneous MultiSlice (SLIDER-SMS) for human fMRI.Review of functional and clinical relevance of intrinsic signal optical imaging in human brain mapping.Methods for fine scale functional imaging of tactile motion in human and nonhuman primates.Modulation of orientation-selective neurons by motion: when additive, when multiplicative?Contextual modulation revealed by optical imaging exhibits figural asymmetry in macaque V1 and V2.Feedforward and feedback connections and their relation to the cytox modules of V2 in Cebus monkeys.Specificity of V1-V2 orientation networks in the primate visual cortex.The effect of task-irrelevant visual backgrounds on human transcranial magnetic stimulation-evoked electroencephalography responses and cortical alpha activity.Intrinsic signal optical imaging of visual brain activity: Tracking of fast cortical dynamics.In Vivo Identification of Thick, Thin, and Pale Stripes of Macaque Area V2 Using Submillimeter Resolution (f)MRI at 3 T.
P2860
Q27329419-2D35E903-7C7A-4C3D-BFCD-9B51D91EAC18Q28310218-94CBC01D-F38D-4A7B-BF22-DD67A2DBC7CFQ30407293-0648F240-DB2F-4398-A188-CE3ABECE7D82Q30580984-70AE9A6E-3C35-425B-AD45-2F2FA1D2BB67Q30615192-956E9E47-8066-4C00-BE16-855DC197647DQ30805651-C7828FA0-8EB3-4D78-B1A0-C1B42DB8A060Q33598187-024ACCBE-BD44-499D-9B84-EBFE48088D18Q33674198-2355FEFC-8DA1-4E75-B1BE-CCE42E300150Q34162831-3DF86B68-F440-4808-AB02-6FB368507AB0Q35135086-130F018E-23B1-4F62-9C9F-91F1F2E559BFQ35225235-35647B32-0BED-4D5C-9A04-6D82B98E79B3Q35609767-2874D158-1C05-432F-B02D-A58E31E7E471Q35785426-A7B28AB4-B58A-4ECC-8FFA-487E6431F80EQ35956556-1A5A03FF-C736-4F0C-A50C-FA620CDD7936Q36241924-1DC506D4-C54B-4B29-BE0D-DA1B7D456938Q36357211-620F9174-19F8-4DF9-84D7-23E0FD64D878Q36428756-D035ABC5-A2FE-457E-8398-873F832F690EQ36607406-1D3300A4-B3E6-40C0-BE01-EC076B1E7CA7Q36671384-AB5A467D-ECB2-4ED1-8EEF-D19FA6F77CA7Q36700382-493A762B-CD7A-4B24-AD19-95FA2E91BF55Q37048126-5C6635B5-1B50-4F69-9E13-0EBEC286610BQ37147458-DD30C933-748A-495A-9768-3DE83D7D0166Q37281225-F73F83B6-BD9B-4096-83B1-47F706B0CAD5Q37592188-41EF50E2-4C8B-445B-82A0-6A715A02327BQ37699522-56D811D1-B91A-4698-B485-E080FB99DEBDQ38002458-47084948-FC87-49D2-8DB4-F9DF29FB4BFEQ38241534-FC8D60C8-B57D-43C7-A68F-4F6B06C56298Q38756006-8C27919A-AC2F-48F1-A0DC-8A8114E1A256Q38857687-9A91A1C1-FC6E-4A48-8A9B-350964A071D5Q38968022-0CE49F49-5D23-49C5-BDF1-C7040A3A596EQ39384768-737E6421-EEFD-46B9-886A-F7093644EFC8Q40385251-3D283FF8-051F-4497-AADE-C040F59A000DQ40922289-EBC42A1B-FDC7-4672-9EBA-CD70F068F2FEQ41055910-CC0BD23F-A69F-4ED5-9B49-5B233E706DC7Q41906401-30EDF328-009C-4B98-A51E-7F7F008F1D01Q43184283-0A71907B-7BDD-4DA8-8769-EFA4F18162D1Q46171417-6A9F830B-D8EE-4C88-8554-EFCD92E9E6B4Q48367865-CCF50FF6-E181-4AD2-BB86-DB1631373204Q50193456-28F304E0-A5E4-4797-A4F1-95CBF7BF14EB
P2860
description
2010 nî lūn-bûn
@nan
2010 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
A motion direction map in macaque V2.
@ast
A motion direction map in macaque V2.
@en
type
label
A motion direction map in macaque V2.
@ast
A motion direction map in macaque V2.
@en
prefLabel
A motion direction map in macaque V2.
@ast
A motion direction map in macaque V2.
@en
P2093
P2860
P1433
P1476
A motion direction map in macaque V2
@en
P2093
Anna W Roe
Haidong D Lu
P2860
P304
P356
10.1016/J.NEURON.2010.11.020
P407
P50
P577
2010-12-01T00:00:00Z