Human evoked cortical activity to signal-to-noise ratio and absolute signal level.
about
Sensitivity of cortical auditory evoked potential detection for hearing-impaired infants in response to short speech soundsThe Effect of Short-Term Auditory Training on Speech in Noise Perception and Cortical Auditory Evoked Potentials in Adults with Cochlear ImplantsElectrophysiology and Perception of Speech in Noise in Older Listeners: Effects of Hearing Impairment and Age.Effects of Signal-to-Noise Ratio on Auditory Cortical Frequency Processing.Aided Electrophysiology Using Direct Audio Input: Effects of Amplification and Absolute Signal Level.Mechanisms of the Hearing-Cognition RelationshipPredicting perception in noise using cortical auditory evoked potentials.Thresholding of auditory cortical representation by background noiseTask-dependent neural representations of salient events in dynamic auditory scenes.The N400 and Late Positive Complex (LPC) Effects Reflect Controlled Rather than Automatic Mechanisms of Sentence Processing.Sensitivity of offset and onset cortical auditory evoked potentials to signals in noise.Constructing noise-invariant representations of sound in the auditory pathway.Adaptive temporal encoding leads to a background-insensitive cortical representation of speechNeural encoding and perception of speech signals in informational maskingFrequency-dependent effects of background noise on subcortical response timing.A Pilot Study on Cortical Auditory Evoked Potentials in Children: Aided CAEPs Reflect Improved High-Frequency Audibility with Frequency Compression Hearing Aid Technology.Slow Cortical Potentials and Amplification-Part II: Acoustic MeasuresSlow cortical potentials and amplification-part I: n1-p2 measuresClinical use of aided cortical auditory evoked potentials as a measure of physiological detection or physiological discrimination.Aided cortical auditory evoked potentials in response to changes in hearing aid gainCortical encoding of signals in noise: effects of stimulus type and recording paradigm.Neural timing is linked to speech perception in noiseSensitivity of the human auditory cortex to acoustic degradation of speech and non-speech soundsThe impact of musicianship on the cortical mechanisms related to separating speech from background noise.Background noise can enhance cortical auditory evoked potentials under certain conditions.USES AND LIMITATIONS OF ELECTROPHYSIOLOGY WITH HEARING AIDS.Cortical signal-in-noise coding varies by noise type, signal-to-noise ratio, age, and hearing status.Enhanced speech perception in noise and cortical auditory evoked potentials in professional musicians.Signal type and signal-to-noise ratio interact to affect cortical auditory evoked potentials.Effects of Amplification on Neural Phase Locking, Amplitude, and Latency to a Speech Syllable.Language experience-dependent advantage in pitch representation in the auditory cortex is limited to favorable signal-to-noise ratios.What subcortical-cortical relationships tell us about processing speech in noise.
P2860
Q27015897-D0B5F94E-5F40-429D-9865-C53DAD734545Q30364750-A9A483E2-6BA8-4360-9226-0514920277B3Q30370940-66416A9C-295C-41AA-926B-350542F8E9DBQ30375012-4E1E24E7-4C55-48EF-818F-C170CC4D7031Q30375056-764CF98A-1C6B-4716-B175-2EE13E782A46Q30376657-B1802A8D-E54F-4D07-9B46-A7F16D5F930FQ30424138-C49F28F7-3F52-4CE5-8F51-AA0DB36D58DFQ30424660-3BC82855-5E03-4403-8453-2845A8931000Q30433314-0A4F78FE-2EB2-4F0C-B13C-6C5DAC71A8D4Q30436405-FF73EDE2-EFC5-4471-ACA6-5F2BB0DC3585Q30441955-0CC5153B-1E27-43D4-8A29-CEC1FFB3B54DQ30446974-98B0F709-27CF-4F3B-BCEC-93109B273552Q30448904-D685E968-6CC3-426E-8F4D-FB590B8E7C97Q30457716-26B71E1F-A378-4AD8-AE75-665510D0A3B5Q30460268-B8143715-1C0A-4AE6-9927-17AA4152D702Q30460436-7B9E14FE-28FC-47E8-942E-305D030F1C39Q30460477-A33FEE62-B6BE-47A4-8ADF-18CC394B522CQ30461806-BA3ED3D5-12C2-4162-AA8E-A31360EEE224Q30462298-E4EF69FE-9697-4D35-A01A-395096C9C6DDQ30466137-F7B084FA-5D7A-44BD-A688-B8E784337626Q30470893-E5CC6B32-736B-4E65-835B-108FB58BFA4CQ30479217-37771584-15B5-42C0-AB46-CE2203F3E010Q30482689-5D94D45E-E162-45DB-B5A3-874FA17AB66EQ30564241-96E0EA0F-8E04-4424-B70C-8719CAC2F92FQ42045598-7D35CD27-0996-4E4F-881B-AC516CD312F5Q42286425-27ABF1DC-BA9F-49E6-A988-A3D79DDFC734Q47111197-386FAFFB-6EEA-45E6-821E-4EBCB75F2796Q47877053-C833C633-4354-427B-A81C-49A88C23514BQ48042530-8813B6D7-8707-4672-AD8D-F8AE04332FE4Q49493291-0F03A2DA-343B-40FF-89F8-068E3F6E4A64Q50015352-08A12D33-3831-4115-BD53-A958B5800502Q50435297-3669D585-33D6-48EB-B7CE-314083E1EA4A
P2860
Human evoked cortical activity to signal-to-noise ratio and absolute signal level.
description
2009 nî lūn-bûn
@nan
2009 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Human evoked cortical activity to signal-to-noise ratio and absolute signal level.
@ast
Human evoked cortical activity to signal-to-noise ratio and absolute signal level.
@en
type
label
Human evoked cortical activity to signal-to-noise ratio and absolute signal level.
@ast
Human evoked cortical activity to signal-to-noise ratio and absolute signal level.
@en
prefLabel
Human evoked cortical activity to signal-to-noise ratio and absolute signal level.
@ast
Human evoked cortical activity to signal-to-noise ratio and absolute signal level.
@en
P2093
P2860
P1433
P1476
Human evoked cortical activity to signal-to-noise ratio and absolute signal level.
@en
P2093
Curtis J Billings
G Christopher Stecker
Kelly L Tremblay
Wendy M Tolin
P2860
P356
10.1016/J.HEARES.2009.04.002
P577
2009-04-11T00:00:00Z