Multisensory integration: methodological approaches and emerging principles in the human brain.
about
Body Perception and Action Following Deafness.The Neurobiology Shaping Affective Touch: Expectation, Motivation, and Meaning in the Multisensory ContextSelective Audiovisual Semantic Integration Enabled by Feature-Selective AttentionThe effect of early visual deprivation on the neural bases of multisensory processingEfficient visual search from synchronized auditory signals requires transient audiovisual events.Being First Matters: Topographical Representational Similarity Analysis of ERP Signals Reveals Separate Networks for Audiovisual Temporal Binding Depending on the Leading Sense.How music alters a kiss: superior temporal gyrus controls fusiform-amygdalar effective connectivity.Uni- and multisensory brain areas are synchronised across spectators when watching unedited dance recordingsThe variability of multisensory processes of natural stimuli in human and non-human primates in a detection task.The Dynamics and Neural Correlates of Audio-Visual Integration Capacity as Determined by Temporal Unpredictability, Proactive Interference, and SOA.Other ways of seeing: From behavior to neural mechanisms in the online "visual" control of action with sensory substitution.Movement Sonification: Effects on Motor Learning beyond Rhythmic Adjustments.Spatio-temporal distribution of brain activity associated with audio-visually congruent and incongruent speech and the McGurk Effect.Evidence for diminished multisensory integration in autism spectrum disorders.Flexibility and Stability in Sensory Processing Revealed Using Visual-to-Auditory Sensory SubstitutionMapping phonemic processing zones along human perisylvian cortex: an electro-corticographic investigation.Temporal-order judgment of audiovisual events involves network activity between parietal and prefrontal cortices.Distinct cortical locations for integration of audiovisual speech and the McGurk effectMultisensory speech perception in children with autism spectrum disordersAre interaural time and level differences represented by independent or integrated codes in the human auditory cortex?Spatial shifts of audio-visual interactions by perceptual learning are specific to the trained orientation and eyeBenefits and detriments of unilateral cochlear implant use on bilateral auditory development in children who are deaf.Delayed audiovisual integration of patients with mild cognitive impairment and Alzheimer's disease compared with normal aged controls.Speech through ears and eyes: interfacing the senses with the supramodal brain.Evidence for enhanced multisensory facilitation with stimulus relevance: an electrophysiological investigation.Psycho-physiological assessment of a prosthetic hand sensory feedback system based on an auditory display: a preliminary study.Evidence for multisensory integration in the elicitation of prior entry by bimodal cuesAging-related changes in auditory and visual integration measured with MEG.Evaluation of inputs to rat primary auditory cortex from the suprageniculate nucleus and extrastriate visual cortexReproducibility and discriminability of brain patterns of semantic categories enhanced by congruent audiovisual stimuli.Sound-induced enhancement of low-intensity vision: multisensory influences on human sensory-specific cortices and thalamic bodies relate to perceptual enhancement of visual detection sensitivityA preliminary investigation regarding the effect of tennis grunting: does white noise during a tennis shot have a negative impact on shot perception?Early cross-modal interactions in auditory and visual cortex underlie a sound-induced visual illusion.Superior temporal activation in response to dynamic audio-visual emotional cuesIntegration of auditory and visual communication information in the primate ventrolateral prefrontal cortex.fMRI evidence for multisensory recruitment associated with rapid eye movements during sleep.Common and distinct neural mechanisms of visual and tactile extinction: A large scale VBM study in sub-acute stroke.Schizophrenia and abnormal brain network hubs.Identifying and quantifying multisensory integration: a tutorial review.Visual Distractors Disrupt Audiovisual Integration Regardless of Stimulus Complexity.
P2860
Q26765712-2FFB7C81-C2BC-47AC-8256-EF6E2CC60A0EQ26771487-D923DC2B-4E78-4402-AAC8-9FBEE3FE3016Q27302399-4552BB00-E988-475D-9488-2A6B98B19CFCQ27303780-B7B81B0F-C030-4E43-92EF-BEEADC80D166Q27329024-6E36318C-C078-405C-87E0-F2F18BE28425Q30354861-179395BC-5DFE-4982-8D76-85CAA183CC25Q30356314-78D32E9A-5DAE-43AC-8133-B641C2435A26Q30357004-E2006A7C-F6B7-4BD3-8B54-77272F54AB93Q30361883-87A2F040-E50F-44F7-8AAA-06EFD8F85C6EQ30367537-93D28FC7-DD02-48F7-9D2B-E2AD1D784AE4Q30380658-6F39FE11-D0B7-4F1A-8DA6-A4FA37D59956Q30381450-B6AF9D0D-869B-40CA-9907-26EC9D9EC1D2Q30396381-985B34C9-BF34-4A60-B815-964E8093E786Q30397383-C13C2368-2602-416D-8519-C6CE83B09A43Q30407117-B6891064-AEB8-46CD-A38B-EC574D6218E2Q30407697-0A516514-F09A-4B41-A149-FFAA9CF44386Q30429546-FA49AE4B-6F03-42CE-8679-DDB4D51ED785Q30436943-7182A023-0671-482F-B86A-0B149849C0A2Q30439714-AD44DA2F-AA4C-4040-BACE-378FFD68DE91Q30443868-96EA255B-9442-421B-B7C9-EA3C38170069Q30446181-208D8C44-4A6B-450F-9475-517082C4680BQ30448258-1BCDA16E-4EC1-43A5-8F3A-F6461FAB3029Q30450606-696B181C-205B-4FA8-B6A4-D1B63B88D136Q30452048-52DD70A2-A250-467C-B7B6-4D6133F11B97Q30458839-0012A3B8-3128-4A3F-B347-C7785D0A7C9BQ30462182-F0F7C693-36CA-48C7-B474-6320D24F07D1Q30463510-F185921E-F7DF-4A9E-A476-FF58AB2B3BC7Q30473632-92616E66-E35E-41D0-82D0-33126ADC8A2EQ30474136-F0A69E57-0B22-44C9-8CDB-6D7EB9F7EA92Q30474851-C1A9DAF5-EE7E-461A-B5DA-DA25496653E8Q30479056-D5D4C045-8CE3-4F6A-ACE8-3B9787ABE810Q30479090-220DA716-F10C-4C32-98A0-B2449490ED75Q30480458-1A379173-7A0B-4B41-9227-10A633D02A3DQ30482906-369FEE6B-F353-481C-A538-17F2E1804799Q30485850-19090D9C-344B-4F64-8673-022E0FE9BDC8Q30490608-64E696FB-CAA9-4E48-A49A-72205E8E831DQ30545561-CD86DD90-EC2B-441B-BF97-84A4A9224344Q30686425-F6A09462-BDCC-4B90-8C6A-E36FDB98D989Q30798626-1F4B41C1-1ABC-4FF4-9E58-7792F9EB4457Q30835564-396FADE5-D24F-43E3-9980-FCAD73622C11
P2860
Multisensory integration: methodological approaches and emerging principles in the human brain.
description
2004 nî lūn-bûn
@nan
2004 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Multisensory integration: meth ...... principles in the human brain.
@ast
Multisensory integration: meth ...... principles in the human brain.
@en
type
label
Multisensory integration: meth ...... principles in the human brain.
@ast
Multisensory integration: meth ...... principles in the human brain.
@en
prefLabel
Multisensory integration: meth ...... principles in the human brain.
@ast
Multisensory integration: meth ...... principles in the human brain.
@en
P1476
Multisensory integration: meth ...... principles in the human brain.
@en
P2093
Gemma A Calvert
Thomas Thesen
P304
P356
10.1016/J.JPHYSPARIS.2004.03.018
P577
2004-01-01T00:00:00Z