about
A fast method for measuring psychophysical thresholds across the cochlear implant array.Stimulus-frequency otoacoustic emission suppression tuning in humans: comparison to behavioral tuningTime-efficient measures of auditory frequency selectivity.Development of a fast method for determining psychophysical tuning curves.Some problems in the measurement of the frequency-resolving ability of hearing.Psychophysical tuning curves in subjects with tinnitus suggest outer hair cell lesions.Frequency selectivity and speech discrimination in sensorineural hearing loss.Low-frequency sensorineural hearing loss. Brainstem response, speech and high-frequency audiometry.A simple clinical measure of frequency resolution.Frequency selectivity and temporal resolution in normal and hearing-impaired listeners.Critical bandwidth in loudness summation in sensorineural hearing loss.Clinical critical band estimation.Auditory-nerve activity in cats exposed to ototoxic drugs and high-intensity sounds.Fast method for psychophysical tuning curve measurement in school-age children.Clinical feasibility of fast psychophysical tuning curves evaluated using normally hearing adults: success rate, range of tip shift, repeatability, and comparison of methods used for estimation of frequency at the tip.Implementation of a fast method for measuring psychophysical tuning curves.Discrimination of the spectral structures of sound signals on the background of interference.Detecting dead regions using psychophysical tuning curves: a comparison of simultaneous and forward masking.Auditory findings in subjects with immunomediated sensorineural hearing loss.Interrelations between psychoacoustical tuning curves and spontaneous and evoked otoacoustic emissions.Frequency selectivity: reliability of electrocochleographic measures with iso-intensity masking.Recovery of psychophysical tuning curves following noise exposure.Compound action-potential tuning curves in normal and acoustically traumatized cats.Anodal transcranial direct current stimulation over auditory cortex degrades frequency discrimination by affecting temporal, but not place, coding.Degradations in frequency and temporal resolution with age and their impact on speech identification
P2860
Q30418896-BC75C808-4E76-460E-A356-8643572F676AQ30424142-C6D872F2-7162-4297-B8CC-2E4505119100Q30455838-6694BAA5-CA06-4FB0-829A-DBE4A78B57E0Q34447673-6E2AF303-9BF3-4489-A015-034676FCBB1AQ36244999-E79ECA8E-194E-4C22-A917-8EEDA4B16200Q38573763-3BAC189C-857A-4FC0-B0DA-51BCB90821EFQ38586846-CBF746EA-3634-4332-B66C-11AD14B641F7Q38590276-E2E6BA04-8ADE-464C-BAE5-20885740EDD2Q38590744-4C1C7782-1085-476A-9269-9C0516584734Q38591471-8D71C395-3320-4BFC-BF36-825C2BE93B1DQ41545827-42CABA59-1727-4934-8275-F819B3679BFFQ44617225-176E2107-BA49-47F4-A4D1-4D1C29656C0BQ45008212-8D4F12D8-9901-4E38-8B0C-9E8027EC75C6Q48832591-73940D65-7CFC-4712-8FF8-424295397164Q50354456-F51A819D-704B-4D21-BA1C-2179F7B236CAQ50435155-8960432D-685A-4772-BE50-AF54703E0A32Q50450864-10466013-1BC3-42E4-87B1-CAAF8EDDB980Q50461691-A1A2A21B-462D-4AE0-AE8D-F30F41C469D6Q50505376-C438121B-A334-46C4-93DD-4AB041B08385Q50526704-CB703F20-C1B7-4780-80DC-224867C57371Q50568559-267F4855-AAFE-4CE0-86C7-6F55F5282C69Q50576315-D99F4DEE-ABEF-4E8B-B348-C6D797B87492Q50591407-BD8068D3-43E4-4E1A-87FC-C2024686355CQ50739188-8D7A007A-E10E-437B-B3DB-DEC55877BDA5Q58309192-FA3AD94E-102E-4B11-A95F-3C9D857EDB5E
P2860
description
article
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в 1974
@uk
ലേഖനം
@ml
name
On a Psychoacoustical Equivalent of Tuning Curves
@en
On a Psychoacoustical Equivalent of Tuning Curves
@nl
type
label
On a Psychoacoustical Equivalent of Tuning Curves
@en
On a Psychoacoustical Equivalent of Tuning Curves
@nl
prefLabel
On a Psychoacoustical Equivalent of Tuning Curves
@en
On a Psychoacoustical Equivalent of Tuning Curves
@nl
P1476
On a Psychoacoustical Equivalent of Tuning Curves
@en
P2093
Eberhard Zwicker
P304
P356
10.1007/978-3-642-65902-7_19
P577
1974-01-01T00:00:00Z