The majority of psychoacoustic research investigating sound localization has utilized stationary sources, yet most naturally occurring sounds are in motion, either because the sound source itself moves, or the listener does. In normal hearing (NH) listeners, previous research showed the extent to which sound duration and velocity impact the ability of listeners to detect sound movement. By contrast, little is known about how listeners with hearing impairments perceive moving sounds; the only study to date comparing the performance of NH and bilateral cochlear implant (BiCI) listeners has demonstrated significantly poorer performance on motion detection tasks in BiCI listeners. Cochlear implants, auditory protheses offered to profoundly deaf...
Listeners with hearing impairments have difficulties understanding speech in the presence of backgro...
Contains fulltext : 135155.pdf (publisher's version ) (Open Access)Direction-speci...
Speech recognition in noise and music perception is especially challenging for current cochlear impl...
Abstract Our acoustic environment contains a plethora of complex sounds that are often in motion. To...
Sound localization is particularly important for maintaining situational awareness and overall safet...
Contains fulltext : 208416.pdf (publisher's version ) (Open Access)Bilateral cochl...
Although a sound position without head movement localized, front-back confusion frequently occurs. M...
Bilateral cochlear-implant (BiCI) users are less accurate at localizing free-field (FF) sound source...
Listeners with hearing impairments have difficulties understanding speech in the presence of backgro...
Bilateral cochlear implant (CI) users encounter difficulties in localizing sound sources in everyday...
It is important to know what cues the sensory system extracts from natural stimuli and how the brain...
Hearing-impaired listeners are known to have difficulties not only with understanding speech in nois...
Background:There are two cues that listeners use to disambiguate the front/back location of a sound ...
Objective: The purpose of this study was to examine the effect of sensorineural hearing loss on the ...
Listeners with hearing impairments have difficulties understanding speech in the presence of backgro...
Listeners with hearing impairments have difficulties understanding speech in the presence of backgro...
Contains fulltext : 135155.pdf (publisher's version ) (Open Access)Direction-speci...
Speech recognition in noise and music perception is especially challenging for current cochlear impl...
Abstract Our acoustic environment contains a plethora of complex sounds that are often in motion. To...
Sound localization is particularly important for maintaining situational awareness and overall safet...
Contains fulltext : 208416.pdf (publisher's version ) (Open Access)Bilateral cochl...
Although a sound position without head movement localized, front-back confusion frequently occurs. M...
Bilateral cochlear-implant (BiCI) users are less accurate at localizing free-field (FF) sound source...
Listeners with hearing impairments have difficulties understanding speech in the presence of backgro...
Bilateral cochlear implant (CI) users encounter difficulties in localizing sound sources in everyday...
It is important to know what cues the sensory system extracts from natural stimuli and how the brain...
Hearing-impaired listeners are known to have difficulties not only with understanding speech in nois...
Background:There are two cues that listeners use to disambiguate the front/back location of a sound ...
Objective: The purpose of this study was to examine the effect of sensorineural hearing loss on the ...
Listeners with hearing impairments have difficulties understanding speech in the presence of backgro...
Listeners with hearing impairments have difficulties understanding speech in the presence of backgro...
Contains fulltext : 135155.pdf (publisher's version ) (Open Access)Direction-speci...
Speech recognition in noise and music perception is especially challenging for current cochlear impl...