about
Functional role of gamma and theta oscillations in episodic memorySynchronization of oscillatory responses in visual cortex correlates with perception in interocular rivalryTop-down influences on visual processingA cocktail party with a cortical twist: how cortical mechanisms contribute to sound segregationHeterogeneity of intrinsic biophysical properties among cochlear nucleus neurons improves the population coding of temporal information.Mixed signal learning by spike correlation propagation in feedback inhibitory circuits.Segregating complex sound sources through temporal coherence.Enhanced awareness followed reversible inhibition of human visual cortex: a combined TMS, MRS and MEG study.Temporal processing of pitch in the auditory system*Temporal coherence and attention in auditory scene analysis.An oscillatory correlation model of auditory streaming.Neural substrate of concurrent sound perception: direct electrophysiological recordings from human auditory cortexSix principles of visual cortical dynamics.Auditory cortical contrast enhancing by global winner-take-all inhibitory interactions.Converging on a core cognitive deficit: the impact of various neurodevelopmental insults on cognitive control.Global processing of visual stimuli in a neural network of coupled oscillatorsSpatiotemporal interactions in retinal prosthesis subjectsBidirectional changes to hippocampal theta-gamma comodulation predict memory for recent spatial episodes.Cross-modal integration of lexical-semantic features during word processing: evidence from oscillatory dynamics during EEG.Modulation of function and gated learning in a network memoryModeling of automatic capture and focusing of visual attention.A cortical mechanism for binding in visual working memory.Stimulus-Dependent Neuronal Oscillations in Cat Visual Cortex: Inter-Columnar Interaction as Determined by Cross-Correlation Analysis.Neuronal synchrony does not correlate with motion coherence in cortical area MT.Incremental grouping of image elements in visionWhat is a moment? Transient synchrony as a collective mechanism for spatiotemporal integration.The temporal resolution of neural codes: does response latency have a unique role?Emergence of physiological oscillation frequencies in a computer model of neocortex.Direct evidence for local oscillatory current sources and intracortical phase gradients in turtle visual cortexFast and robust image segmentation by small-world neural oscillator networksThe interaction of rhinal cortex and hippocampus in human declarative memory formation.Dynamic spike threshold reveals a mechanism for synaptic coincidence detection in cortical neurons in vivo.Decomposition of a mixture of signals in a model of the olfactory bulbThe functional logic of cortico-pulvinar connectionsImplementation of a synchronized oscillator circuit for fast sensing and labeling of image objectsNeural synchrony, axonal path lengths, and general anesthesia: a hypothesis.40-Hz oscillations underlying perceptual binding in young and older adults.Instrumental conditioning of fast (20- to 50-Hz) oscillations in corticothalamic networks.Good vibes.The cocktail party problem.
P2860
Q24634318-B9CA79F6-FD5D-4A33-AB6B-40AACB0F2F57Q24645581-784C84B5-DDC7-490F-8115-A6DA2EF12874Q27004514-36055181-94E1-4028-B776-9B1315D97484Q30374857-8EDF2116-75B5-479C-83E3-4C4721D18FCFQ30410406-0AEBE737-2864-4A96-846D-0D5A7F7FD83CQ30412252-79295D84-D432-411A-862F-A9304A4F6672Q30422412-335DF1EE-D70D-43F0-94E4-62ED8DC80FEFQ30436115-2681F309-7C3F-46BC-A2C4-7501BC5631BBQ30465091-E8FC415A-672E-4652-8DBA-C8E14F90AC7EQ30470150-09FE6E8C-FBE2-4469-979F-30DC4E675568Q30490928-5C6C5DD4-3EE4-41A0-8199-9CAC290B52C8Q30492930-1E16C8D9-F988-4174-B210-493B554F910BQ30495546-43B2ACD9-8015-4A94-873B-2E6EAF08A40AQ30496721-9734A384-383D-41E5-8487-42E2BB90F538Q33736819-C92A8291-25BE-492A-B051-F4C229DABF55Q33798951-F1C6DCDE-20A4-4AA2-9894-7C3BB596E5EDQ33845286-7C631214-7BCE-4282-9C59-943DCFAE49DEQ33859482-7BBEB616-D9F1-4493-9A2A-1004863AFCB2Q33874503-F764FDD2-F2F1-43C1-A7D8-20152FC155FFQ33911680-4F837E1F-4DFF-4039-AF97-7E0025D00E39Q34075787-12906BB6-14AA-412E-9822-3031150090D9Q34091834-A523BC5A-DE50-47B9-968C-543667744F8DQ34137598-0F0B0391-AF74-4364-85B5-9F624F4FFE25Q34172128-0FAF48AC-498D-4AFF-B7F9-A32C4D1664BFQ34214522-CF51C93A-2954-4788-B728-6CA36CAF1FFEQ34660789-06B89374-7500-4009-9A50-178EA8A46774Q34824551-5B7D6FE8-6AAB-4B2B-AB3E-A0ECDE0B436EQ34863531-BC9D7DE8-95AD-420C-B35F-14777E2A7E30Q34980703-DD011FD8-0480-42F3-BC8D-1CC6D3A93F42Q35000738-F5B7ECB5-BEF8-4525-A465-C3E551A6243DQ35050856-85FF3F7B-D1BD-4E5C-B059-58452F267E4BQ35177058-9C8B6B3E-E3BB-422F-9FAB-1C32B8E8AEF8Q35543256-D2516FA9-4912-4BB3-BC4B-66F4B9B51692Q35560701-7C3FC20F-BE02-494F-B92E-1EDCDAC2D632Q35594331-901D22F8-9603-4ACF-88B8-A432EC2B3B88Q35608991-5BEDBABF-6FEA-48AB-A5F8-177012F248BDQ35990578-26FA74F2-177A-4860-B191-48F738551EAEQ36030380-2F47CC98-8EBB-4382-82C8-88CEFDC6721FQ36120899-A525DD64-A1FC-4132-91B5-C196556C735FQ36181566-5269A513-D72A-4B0D-BB9F-A0A8EA89DBB3
P2860
description
1986 nî lūn-bûn
@nan
1986年の論文
@ja
1986年学术文章
@wuu
1986年学术文章
@zh
1986年学术文章
@zh-cn
1986年学术文章
@zh-hans
1986年学术文章
@zh-my
1986年学术文章
@zh-sg
1986年學術文章
@yue
1986年學術文章
@zh-hant
name
A neural cocktail-party processor.
@en
A neural cocktail-party processor.
@nl
type
label
A neural cocktail-party processor.
@en
A neural cocktail-party processor.
@nl
prefLabel
A neural cocktail-party processor.
@en
A neural cocktail-party processor.
@nl
P356
P1476
A neural cocktail-party processor.
@en
P2093
C von der Malsburg
W Schneider
P2888
P356
10.1007/BF00337113
P577
1986-01-01T00:00:00Z