Binaural interaction in high-frequency neurons in inferior colliculus of the cat: effects of variations in sound pressure level on sensitivity to interaural intensity differences.
about
Circuits for processing dynamic interaural intensity disparities in the inferior colliculus.Processing of frequency and location in human subcortical auditory structuresNoninvasive fMRI investigation of interaural level difference processing in the rat auditory subcortex.Single-unit responses in the inferior colliculus of decerebrate cats. II. Sensitivity to interaural level differencesMechanisms of sound localization in mammalsNeural population encoding and decoding of sound source location across sound level in the rabbit inferior colliculus.Sound frequency-invariant neural coding of a frequency-dependent cue to sound source locationA function for binaural integration in auditory grouping and segregation in the inferior colliculus.Effect of background noise on neuronal coding of interaural level difference cues in rat inferior colliculus.Synaptic mechanisms underlying interaural level difference selectivity in rat auditory cortex.Localization of click trains and speech by cats: the negative level effectNeuronal interaural level difference response shifts are level-dependent in the rat auditory cortex.The inferior colliculus encodes the Franssen auditory spatial illusion.The balance of excitatory and inhibitory synaptic inputs for coding sound locationInteraural level difference-dependent gain control and synaptic scaling underlying binaural computation.The discrimination of interaural level difference sensitivity functions: development of a taxonomic data template for modelling.Monaural and binaural inhibition underlying duration-tuned neurons in the inferior colliculus.Specialization of binaural responses in ventral auditory cortices.Sensitivity of cochlear nucleus neurons to spatio-temporal changes in auditory nerve activity.Circuits that innervate excitatory-inhibitory cells in the inferior colliculus obtained with in vivo whole cell recordings.Mechanisms underlying azimuth selectivity in the auditory cortex of the pallid batSystematic representation of sound locations in the primary auditory cortex.GABA shapes a systematic map of binaural sensitivity in the auditory cortexIntracellular recordings reveal novel features of neurons that code interaural intensity disparities in the inferior colliculusVarying overall sound intensity to the two ears impacts interaural level difference discrimination thresholds by single neurons in the lateral superior oliveAn influence of amplitude modulation on interaural level difference processing suggested by learning patterns of human adults.Mathematical models of cochlear nucleus onset neurons: II. model with dynamic spike-blocking state.Sensitivity to interaural time differences in the inferior colliculus with bilateral cochlear implants.Development of functional organization of the pallid bat auditory cortex.Temporal properties of chronic cochlear electrical stimulation determine temporal resolution of neurons in cat inferior colliculus.Functional organization of the pallid bat auditory cortex: emphasis on binaural organization.Leading inhibition to neural oscillation is important for time-domain processing in the auditory midbrain.Spectral shape sensitivity contributes to the azimuth tuning of neurons in the cat's inferior colliculus.Multiple components of ipsilaterally evoked inhibition in the inferior colliculus.Receptive fields and binaural interactions for virtual-space stimuli in the cat inferior colliculus.Representation of Multidimensional Stimuli: Quantifying the Most Informative Stimulus Dimension from Neural Responses.Gabor analysis of auditory midbrain receptive fields: spectro-temporal and binaural composition.Directional sensitivity of neurons in the primary auditory (AI) cortex: effects of sound-source intensity level.IID sensitivity differs between two principal centers in the interaural intensity difference pathway: the LSO and the IC.Representation of binaural spatial cues in field L of the barn owl forebrain.
P2860
Q26865651-F513E447-8D82-4AFC-AF68-8F17F2C0AA3BQ27305236-76718169-129B-4DD9-967D-46D399C7ED3EQ27310139-985B014C-C47C-4481-880C-06EFCAC43C8DQ28139314-A4E9D040-AEB5-4A98-8EF3-6C69936991B6Q28288978-B9671650-616A-471A-93F3-00E9F7A62B1EQ30366870-39779802-BD39-4627-97C3-FD9CECA01870Q30380363-537DD898-43E1-4DFB-9DEB-6006F2876F41Q30388362-C6739757-19D6-4E77-B513-1052C7A588EEQ30395714-8BD95250-D922-4B7A-AA6B-F5582A43F2E2Q30398805-097798C4-CDE9-4ADC-872E-E39836F7B201Q30401926-FCECF29D-5FAA-4168-9317-E65B476A9BBAQ30417790-5D9828F8-34F4-4B18-B7DA-80977A5E1279Q30420074-2E2E8AF0-704D-43C6-A877-D7F3BD599DDFQ30431330-AE50F525-E2BF-496B-8953-69774008D5C7Q30432723-2AD501A3-5C1E-401F-8E2F-32C8CAF5BF7FQ30433147-6B2EB75D-2EC5-411D-9862-B6F559A27325Q30435222-9AA878C2-FD40-47B1-B637-E05FE9951E16Q30445776-BE2AE762-79D4-4F39-9DC8-47BAE59F013AQ30445808-456EF894-D3CA-4BA5-A400-EFF268258993Q30448389-D6D80E73-2682-4554-90C9-71C522662FCBQ30451437-C43BBAD7-6B4D-48ED-9556-14758FE77DD5Q30469233-2801D8A8-8777-429A-8954-2E4370C3AB33Q30474958-B131A0CE-D6A8-4190-B348-A85724E66942Q30475741-271CBFA1-FBCE-4BEF-815D-545D307E27CAQ30477335-C9A320C9-09F6-40FB-8FDC-93DE6B1ECDF7Q30479739-8CBEADD3-031C-46A9-8B10-16910E4EE807Q30496631-251AF7E2-B9C6-4118-B3BD-66CF19373C07Q30500221-A5362122-DFE2-4AF5-994C-0531762F2E01Q30501107-78568DFC-48EB-4A8B-9658-EF3571302064Q41708967-23F9334B-D22B-4D88-BF62-467BDF67AC6EQ45229929-EEAC8F95-B53A-4E3C-B079-EFB2ED2A1BF6Q46384284-D727E130-F23C-4D39-ACCC-FBCC1C9888BAQ47922280-73AA7B76-2294-4685-AA99-9E05CA415571Q48138359-DB1CC3B3-FD3D-46F4-B00A-71D1CD6050C8Q48187292-D745F7D3-8B0C-405F-8CBA-0118F280D6FFQ48199231-E43E92A3-5444-4592-AFA1-567D17686842Q48353078-FF19A4F9-E2E6-48FD-B150-CA48DDBED5A3Q48392959-1A0CDF01-449F-4882-8585-052ED1AF5B69Q48470299-BA1F7359-3F7B-4EAE-BB49-568412434E24Q48490039-8B0A48F4-56BA-469A-B662-1C2622CF10EF
P2860
Binaural interaction in high-frequency neurons in inferior colliculus of the cat: effects of variations in sound pressure level on sensitivity to interaural intensity differences.
description
1990 nî lūn-bûn
@nan
1990年の論文
@ja
1990年論文
@yue
1990年論文
@zh-hant
1990年論文
@zh-hk
1990年論文
@zh-mo
1990年論文
@zh-tw
1990年论文
@wuu
1990年论文
@zh
1990年论文
@zh-cn
name
Binaural interaction in high-f ...... eraural intensity differences.
@en
type
label
Binaural interaction in high-f ...... eraural intensity differences.
@en
prefLabel
Binaural interaction in high-f ...... eraural intensity differences.
@en
P356
P1476
Binaural interaction in high-f ...... eraural intensity differences.
@en
P2093
P304
P356
10.1152/JN.1990.63.3.570
P407
P577
1990-03-01T00:00:00Z