Representation of tone in fluctuating maskers in the ascending auditory system.
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Developmental Conductive Hearing Loss Reduces Modulation Masking ReleaseComodulation Enhances Signal Detection via Priming of Auditory Cortical Circuits.Is GABA neurotransmission enhanced in auditory thalamus relative to inferior colliculus?Up states are rare in awake auditory cortex.Masking release for sweeping masker components with correlated envelopes.Evolutionary conservation and neuronal mechanisms of auditory perceptual restoration.Hierarchical representations in the auditory cortexEffects of noise bandwidth and amplitude modulation on masking in frog auditory midbrain neurons.Beyond the cortical column: abundance and physiology of horizontal connections imply a strong role for inputs from the surround.Auditory stream formation affects comodulation masking release retroactively.Reverse hierarchies and sensory learning.Encoding of illusory continuity in primary auditory cortex.Neurons and objects: the case of auditory cortex.The effects of background noise on the neural responses to natural sounds in cat primary auditory cortex.Adaptation and selective information transmission in the cricket auditory neuron AN2Low-level information and high-level perception: the case of speech in noise.A Role for Auditory Corticothalamic Feedback in the Perception of Complex Sounds.Stimulus-specific adaptation in a recurrent network model of primary auditory cortex.The unimodal distribution of sub-threshold, ongoing activity in cortical networks.Encoding by response duration in the basal ganglia.Thalamic input to auditory cortex is locally heterogeneous but globally tonotopic.Processing of sounds by population spikes in a model of primary auditory cortexβ- And γ-band EEG power predicts illusory auditory continuity perception.Responses of auditory cortex to complex stimuli: functional organization revealed using intrinsic optical signals.Responses of neurons in primary auditory cortex (A1) to pure tones in the halothane-anesthetized cat.L-type calcium channels refine the neural population code of sound level.Noise-robust speech recognition through auditory feature detection and spike sequence decoding.Neural representations of temporally modulated signals in the auditory thalamus of awake primates.Frequency selectivity emerging from spike-timing-dependent plasticity.Detection of Tones Masked by Fluctuating Noise in Rat Auditory Cortex.Contextual modulation of sound processing in the auditory cortex.Contribution of spiking activity in the primary auditory cortex to detection in noise.Comodulation masking release in the inferior colliculus by combined signal enhancement and masker reduction.What subcortical-cortical relationships tell us about processing speech in noise.Brainstem Correlates of Comodulation Masking Release for Speech in Normal Hearing Adults.
P2860
Q30362008-A8E125FA-8B7F-4FFC-8405-EAFBCB78DE04Q30367215-2137DEC4-F4EB-4B05-8906-F6ADF94BA3D7Q30420762-9E26D480-8F93-46E9-B366-D33C77B0CB67Q30440106-BE9F7151-0C99-428E-B5BD-8281DA495015Q30443610-22F5168E-2029-4CB5-A6F5-21A97089AC36Q30446113-DD514D4A-8F81-4E94-A1D1-DF38F1C4BD36Q30462866-51A9FE4C-4F4E-4495-A87E-ED3BD01FEF54Q30470398-714D0993-5807-4C0A-87F9-326AA065D08EQ30475797-AF29BBB0-223A-4B4D-9A8F-55601F7624E5Q30482348-58AC4AD9-86E2-44EE-A288-9E50D1E0B7D5Q30483373-C9BDF3AC-4C5B-46B9-9109-830692655C9BQ30485505-4704BC19-1652-44B0-B798-8419356E436BQ30492823-1E29136C-7577-4B87-9421-FE34369D7BBBQ30492980-8DCA4F5B-096C-4DC1-B61C-7554AADD60DEQ30493262-BB5B17D0-9CE2-418A-82B9-238D6B81648CQ30494176-DE448D0F-B94B-4284-A98D-EC6F8CBA4258Q33827564-F8FB36C0-ED1F-4C52-826C-DECED7110202Q36306133-23B8726A-6A8F-4AA5-A78F-C12D302E9FB4Q37001850-6FF210D6-5B8A-4B23-A8D9-209D49EB1D49Q40037943-7E7AE394-2D58-48A5-A0E1-9DF2A4D9DCD7Q41671825-E1A48C83-173D-46AC-82D6-EAE69097B7EEQ42039310-564B632D-2BE3-4A01-8D8F-F5FF7CCB5A26Q44386380-2D5F4B65-F2B3-42D0-8EDA-54F8EB21F522Q45187040-5DE04825-368B-4FF2-9B0B-B5A17C0637E1Q46203406-4B9E3AEB-0798-4624-BF25-629FCEED82FEQ47703276-F57D1A1E-AB38-46D9-8C68-46648F8725D7Q47821721-CF7A955D-1431-4BEE-8DF6-403BC13C0592Q48392712-5862BE69-3A74-4DFD-BA90-ACCDF5747880Q48460253-DFFF9069-5DAB-4147-AC46-C96979174F76Q49079448-3E8DF829-72B5-41AC-8EBC-E67C8FC3FB8CQ50069466-57006D2F-8CC1-4A65-9845-E741C46DDA3DQ50267087-51FBAFA7-193F-48F4-A2DF-FEDA3E42FCB7Q50276831-BA239FE1-F441-456A-BB44-90A4A325352EQ50435297-93EEB811-650A-4119-8C34-73106C91E99FQ52321094-0B79A6EF-90B6-497C-8555-3FEB75FA2BD0
P2860
Representation of tone in fluctuating maskers in the ascending auditory system.
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Representation of tone in fluctuating maskers in the ascending auditory system.
@en
Representation of tone in fluctuating maskers in the ascending auditory system.
@nl
type
label
Representation of tone in fluctuating maskers in the ascending auditory system.
@en
Representation of tone in fluctuating maskers in the ascending auditory system.
@nl
prefLabel
Representation of tone in fluctuating maskers in the ascending auditory system.
@en
Representation of tone in fluctuating maskers in the ascending auditory system.
@nl
P2093
P1476
Representation of tone in fluctuating maskers in the ascending auditory system
@en
P2093
Edward A Stern
Israel Nelken
P304
P356
10.1523/JNEUROSCI.4007-04.2005
P407
P577
2005-02-01T00:00:00Z