Interaural time sensitivity dominated by cochlea-induced envelope patterns.
about
Predicting binaural responses from monaural responses in the gerbil medial superior olive.Binaural hearing in children using Gaussian enveloped and transposed tonesHuman Frequency Following Response: Neural Representation of Envelope and Temporal Fine Structure in Listeners with Normal Hearing and Sensorineural Hearing Loss.Mass Potentials Recorded at the Round Window Enable the Detection of Low Spontaneous Rate Fibers in Gerbil Auditory Nerve.Role of Binaural Temporal Fine Structure and Envelope Cues in Cocktail-Party Listening.Inhibition in the auditory brainstem enhances signal representation and regulates gain in complex acoustic environments.Quantifying envelope and fine-structure coding in auditory nerve responses to chimaeric speechA Neural Model of Auditory Space Compatible with Human Perception under Simulated Echoic Conditions.Emergence of band-pass filtering through adaptive spiking in the owl's cochlear nucleusImplications of within-fiber temporal coding for perceptual studies of F0 discrimination and discrimination of harmonic and inharmonic tone complexesSpeech perception in noise with a harmonic complex excited vocoder.The interaural time difference pathway: a comparison of spectral bandwidth and correlation sensitivity at three anatomical levelsOptimal combination of neural temporal envelope and fine structure cues to explain speech identification in background noise.Sensorineural hearing loss amplifies neural coding of envelope information in the central auditory system of chinchillas.Temporal properties of responses to sound in the ventral nucleus of the lateral lemniscus.Dual sensitivity of inferior colliculus neurons to ITD in the envelopes of high-frequency sounds: experimental and modeling study.Envelope enhancement increases cortical sensitivity to interaural envelope delays with acoustic and electric hearingCoincidence detection in the medial superior olive: mechanistic implications of an analysis of input spiking patternsHuman interaural time difference thresholds for sine tones: the high-frequency limit.Decoding sound source location and separation using neural population activity patternsBinaural gain modulation of spectrotemporal tuning in the interaural level difference-coding pathway.Neural correlates of the perception of sound source separation.Cortical inhibition reduces information redundancy at presentation of communication sounds in the primary auditory cortex.Neural encoding of sound source location in the presence of a concurrent, spatially separated source.Neural ITD coding with bilateral cochlear implants: effect of binaurally coherent jitter.Temporal modulation transfer functions measured from auditory-nerve responses following sensorineural hearing loss.Psychophysiological analyses demonstrate the importance of neural envelope coding for speech perception in noise.Computing with neural synchrony.Predicted effects of sensorineural hearing loss on across-fiber envelope coding in the auditory nerve.Envelope coding in auditory nerve fibers following noise-induced hearing lossDifference in response reliability predicted by spectrotemporal tuning in the cochlear nuclei of barn owls.Responses of auditory nerve and anteroventral cochlear nucleus fibers to broadband and narrowband noise: implications for the sensitivity to interaural delays.Effects of reverberation on the directional sensitivity of auditory neurons across the tonotopic axis: influences of interaural time and level differencesA phenomenological model of the synapse between the inner hair cell and auditory nerve: long-term adaptation with power-law dynamics.Diotic and dichotic detection with reproducible chimeric stimuliAccurate sound localization in reverberant environments is mediated by robust encoding of spatial cues in the auditory midbrainInteraural correlation fails to account for detection in a classic binaural task: dynamic ITDs dominate N0Spi detection.Distinct roles for onset and sustained activity in the neuronal code for temporal periodicity and acoustic envelope shape.The volley theory and the spherical cell puzzle.Sensitivity of inferior colliculus neurons to interaural time differences in the envelope versus the fine structure with bilateral cochlear implants
P2860
Q30355234-3DA5B6F5-9F85-4DDC-9392-8E12CA04EB6EQ30359776-E394A15E-0521-4C03-AAA2-48059B399CEFQ30362160-1F5E1CA0-0EEC-4DD5-B1B3-3E308090B8B3Q30364111-3A542D56-5E51-401F-A0F6-D06197F088ECQ30364163-B15BE1FB-AAF8-4ACF-AAC1-EC6F111A951AQ30368089-20757313-9292-414A-B614-C50257B3B54EQ30376145-2E6CE98A-3846-4FC3-B7F4-DCAE8C655E00Q30402761-9FF70C68-09C1-4924-A326-B78D680DDCD5Q30406818-F0B883F0-835B-4E2B-A65E-D876B8F5405EQ30410324-86892E5B-AAD4-47B1-9E44-9EC92E392792Q30415318-E0D99E19-6A7D-4262-BE8B-6D6B480A905FQ30415322-E76FC085-42DB-4E45-88E5-4F6E9ED6119FQ30417448-46D4CD0C-87EC-4393-894E-27822C406DF2Q30417677-1BA23FBA-6A3E-4BAA-ADDE-A3E8965AA8B0Q30418772-3520DBD9-2BC2-4898-A8B6-AEEBEDB22016Q30421908-C734B2B4-F81F-4BDF-9D72-B842E86FFF2AQ30433130-00752FB7-5172-4E12-962B-3CCA1A539066Q30438612-82CFC86D-D6B7-4E62-98E5-C850F4D69986Q30439122-25F4C948-C99D-4270-85EF-677219CC5197Q30440650-8693D356-BFA7-4FA6-9D86-C6F7DD739C8AQ30444841-4C57DA38-34F2-47B3-AF06-6B751E5A5575Q30444952-3C8E6AB2-086F-4BBC-A98E-A51460D77D2FQ30445408-DF265A7B-A932-4D71-AD37-9700D7466F26Q30447799-03CE875B-F719-49F8-A009-65B094149782Q30451570-6C8A6BD7-03D6-4829-A1B8-FE2DBC23713CQ30455835-8A12AF60-758C-4622-898F-5B97538B23A1Q30465275-CB7B9AF9-3634-4067-8431-D68E7C8E8F2AQ30466487-E5B41856-5F29-4A05-93DE-B3D16660E029Q30467066-D898DC72-F7ED-4E37-972B-6AF8B27075BDQ30472590-8AABD392-979B-4351-9181-E92EA62F0DD3Q30474242-1EDEBAAA-C2B7-4598-9DE6-785926D98131Q30474828-A90A3300-5A16-40C6-B424-B448EDFC4C30Q30478253-0495C587-82C7-4935-A1DE-5B0A0CF66CABQ30478904-B36B0947-7AE0-4B90-8C0D-BD6EED5AD0EEQ30479350-2F7C8B92-2815-40EE-9207-591C4D042CE6Q30481976-BA247D85-1BA6-43A3-8BB6-A598F2994DDFQ30483236-88E1AD26-A078-428E-8507-55F8A192ADA4Q30488785-693DD8A2-8E26-4092-A148-708815509D70Q30488996-338CC797-D305-442F-883D-3F3977EBDBDEQ30489947-D03903EB-592B-4F94-8448-3BFEBF880F9A
P2860
Interaural time sensitivity dominated by cochlea-induced envelope patterns.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh-hant
name
Interaural time sensitivity dominated by cochlea-induced envelope patterns.
@en
Interaural time sensitivity dominated by cochlea-induced envelope patterns.
@nl
type
label
Interaural time sensitivity dominated by cochlea-induced envelope patterns.
@en
Interaural time sensitivity dominated by cochlea-induced envelope patterns.
@nl
prefLabel
Interaural time sensitivity dominated by cochlea-induced envelope patterns.
@en
Interaural time sensitivity dominated by cochlea-induced envelope patterns.
@nl
P1476
Interaural time sensitivity dominated by cochlea-induced envelope patterns
@en
P2093
Philip X Joris
P304
P356
10.1523/JNEUROSCI.23-15-06345.2003
P407
P577
2003-07-01T00:00:00Z