about
Auditory and visual scene analysis: an overview.Tonotopic representation of loudness in the human cortexFactors related to tinnitus and hyperacusis handicap in older people.Usefulness of self-report questionnaires for psychological assessment of patients with tinnitus and hyperacusis and patients' views of the questionnaires.Development of a method for determining binaural sensitivity to temporal fine structure.Factors related to uncomfortable loudness levels for patients seen in a tinnitus and hyperacusis clinic.Reference thresholds for the TEN(HL) test for people with normal hearing.Proportion and characteristics of patients who were offered, enrolled in and completed audiologist-delivered cognitive behavioural therapy for tinnitus and hyperacusis rehabilitation in a specialist UK clinic.No evidence for enhanced processing of speech that is low-pass filtered near the edge frequency of cochlear dead regions in childrenUncomfortable loudness levels among children and adolescents seeking help for tinnitus and/or hyperacusisEvaluation of a multi-channel algorithm for reducing transient soundsEffect of harmonic rank on sequential sound segregationEffect of the number of amplitude-compression channels and compression speed on speech recognition by listeners with mild to moderate sensorineural hearing lossTinnitus loudness and the severity of insomnia: a mediation analysisCognitive Behavioral Therapy For Alleviating The Distress Caused By Tinnitus, Hyperacusis And Misophonia: Current PerspectivesComparison of auditory spatial bisection and minimum audible angle in front, lateral, and back spaceNo Effect of Musical Training on Frequency Selectivity Estimated Using Three MethodsThe relationship between hearing loss and insomnia for patients with tinnitusEvaluation of a system for enhancing mobile telephone communication for people with hearing lossEffects of Age and Hearing Loss on the Discrimination of Amplitude and Frequency Modulation for 2- and 10-Hz RatesThe accuracy of auditory spatial judgments in the visually impaired is dependent on sound source distance
P50
Q30362997-DC17D754-23C8-491A-8A42-B125B139123DQ30364460-2B1D6E6A-844D-4717-A3FD-66408A910CF8Q38669778-B29701EF-FB1F-4EE4-9136-B3BB4A3201B5Q47780418-20247230-C280-4D15-8480-A90FF781E8F8Q48145187-BBE3B1AA-EA38-4527-972B-E59BE3074A84Q48265614-2ABFFCEE-8044-4FA5-9B7B-07AA296B1F8AQ48296046-1B76BD20-FB2F-46FE-A473-DA477C8070EDQ50131482-68942908-929D-40F5-8264-BFC9B2AE931DQ88453882-245089A7-1A7E-4F28-879E-5E354FFE715AQ88453886-88CD93FD-2500-410C-94B9-4EF6F96D8103Q88681476-0ED8CD3F-E4A4-4472-A26A-0C5648E91A48Q90081264-8416DB09-C450-461B-AF83-A2159309F745Q90828900-2CF297F1-FD59-4FE4-9440-7F6CD49FC12CQ90978159-BD7E85F1-7D0E-4887-875A-CD7D0DD10CB4Q91367165-7B43F90D-04E0-4481-A561-46F4B20B82D6Q91892468-848256F0-2871-40CC-A0A9-46E803E2DD01Q91969415-0A43C73C-A582-4973-9400-EC73E0090CE1Q92741990-0DC789FA-ABE0-4618-8C45-3F40E53CB31EQ92919139-0ECBEC60-2FED-4AF3-9436-8E5B9A6F123AQ93097271-31722459-CBEA-4B9A-B68D-1AEDA4082031Q94452185-FBD46180-3CB3-4834-86D5-47F7FA84CD8C
P50
description
researcher
@en
name
Brian C J Moore
@en
type
label
Brian C J Moore
@en
prefLabel
Brian C J Moore
@en
P31
P496
0000-0001-7071-0671