Eccentricity bias as an organizing principle for human high-order object areas.
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Using magnetic resonance imaging to assess visual deficits: a reviewConnectionist neuropsychology: uncovering ultimate causes of acquired dyslexia.The Invariance Hypothesis Implies Domain-Specific Regions in Visual CortexCategory-Selectivity in Human Visual Cortex Follows Cortical Topology: A Grouped icEEG StudyUnraveling the distributed neural code of facial identity through spatiotemporal pattern analysisFunctional foveal splitting: evidence from neuropsychological and multimodal MRI investigations in a Chinese patient with a splenium lesionWhere is the semantic system? A critical review and meta-analysis of 120 functional neuroimaging studies.Visual Field Map Clusters in High-Order Visual Processing: Organization of V3A/V3B and a New Cloverleaf Cluster in the Posterior Superior Temporal Sulcus.Organization of high-level visual cortex in human infantsTwo Visual Pathways in Primates Based on Sampling of Space: Exploitation and Exploration of Visual Information.A number-form area in the blindMapping phonemic processing zones along human perisylvian cortex: an electro-corticographic investigation.The role of left occipitotemporal cortex in reading: reconciling stimulus, task, and lexicality effects.Specialization of binaural responses in ventral auditory cortices.A stable topography of selectivity for unfamiliar shape classes in monkey inferior temporal cortex.Seeing with profoundly deactivated mid-level visual areas: non-hierarchical functioning in the human visual cortex.Retinotopic organization of human ventral visual cortexDifferential effect of contrast polarity reversals in closed squares and open L-junctionsLinking brain to behavior for the visual perception of figures and objects.Functional connectivity of visual cortex in the blind follows retinotopic organization principlesMonkey cortex through fMRI glassesDevelopment of the macaque face-patch system.Visual field map clusters in human cortex.Neuroimaging in human amblyopia.Regional neural response differences in the determination of faces or houses positioned in a wide visual field.Interpreting fMRI data: maps, modules and dimensions.Resolving the neural dynamics of visual and auditory scene processing in the human brain: a methodological approach.Mechanisms of face perception.Changing human visual field organization from early visual to extra-occipital cortex.Incremental learning of perceptual and conceptual representations and the puzzle of neural repetition suppression.Early category-specific cortical activation revealed by visual stimulus inversionThe role of human ventral visual cortex in motion perceptionImaging retinotopic maps in the human brain.The orthography-specific functions of the left fusiform gyrus: evidence of modality and category specificity.Top-down attentional control in spatially coincident stimuli enhances activity in both task-relevant and task-irrelevant regions of cortex.Development of visual category selectivity in ventral visual cortex does not require visual experience.Face or building superiority in peripheral vision reversed by task requirementsA hierarchical, retinotopic proto-organization of the primate visual system at birthWorking memory for vibrotactile frequencies: comparison of cortical activity in blind and sighted individualsEvidence for the default network's role in spontaneous cognition.
P2860
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P2860
Eccentricity bias as an organizing principle for human high-order object areas.
description
2002 nî lūn-bûn
@nan
2002年の論文
@ja
2002年学术文章
@wuu
2002年学术文章
@zh
2002年学术文章
@zh-cn
2002年学术文章
@zh-hans
2002年学术文章
@zh-my
2002年学术文章
@zh-sg
2002年學術文章
@yue
2002年學術文章
@zh-hant
name
Eccentricity bias as an organizing principle for human high-order object areas.
@en
Eccentricity bias as an organizing principle for human high-order object areas.
@nl
type
label
Eccentricity bias as an organizing principle for human high-order object areas.
@en
Eccentricity bias as an organizing principle for human high-order object areas.
@nl
prefLabel
Eccentricity bias as an organizing principle for human high-order object areas.
@en
Eccentricity bias as an organizing principle for human high-order object areas.
@nl
P50
P1433
P1476
Eccentricity bias as an organizing principle for human high-order object areas.
@en
P2093
Rafael Malach
P304
P356
10.1016/S0896-6273(02)00662-1
P407
P577
2002-04-01T00:00:00Z