Contains fulltext : 135155.pdf (publisher's version ) (Open Access)Direction-specific interactions of sound waves with the head, torso, and pinna provide unique spectral-shape cues that are used for the localization of sounds in the vertical plane, whereas horizontal sound localization is based primarily on the processing of binaural acoustic differences in arrival time (interaural time differences, or ITDs) and sound level (interaural level differences, or ILDs). Because the binaural sound-localization cues are absent in listeners with total single-sided deafness (SSD), their ability to localize sound is heavily impaired. However, some studies have reported that SSD listeners are able, to some extent, to localize sound so...
Spatial hearing, which largely relies on binaural time/level cues, is a challenge for patients with ...
The questions of whether hearing-impaired listeners are also impaired for the localization of sounds...
This article presents results of investigations of the angle of directional hearing acuity (ADHA) as...
Contains fulltext : 60261.pdf (publisher's version ) (Open Access)Monaurally deaf ...
Monaurally deaf people lack the binaural acoustic difference cues in sound level and timing that are...
Humansound localization results primarily fromtheprocessingof binaural differences in sound level an...
Contains fulltext : 32926.pdf (publisher's version ) (Open Access)Human sound loca...
The capacity of the auditory system to extract spatial information relies principally on the detecti...
This paper reports on the acute effects of a monaural plug on directional hearing in the horizontal ...
Contains fulltext : 30082.pdf (publisher's version ) (Open Access)Human sound loca...
Human sound localization relies on binaural difference cues for sound-source azimuth and pinna-relat...
Building a realistic spatial auditory representation of our surrounding environment is an important ...
Listeners use monaural spectral cues to localize sound sources in sagittal planes (along the up-down...
Localizing a sound source requires the auditory system to determine its direction and its distance. ...
Under certain conditions, sighted and blind humans can use echoes to discern characteristics of othe...
Spatial hearing, which largely relies on binaural time/level cues, is a challenge for patients with ...
The questions of whether hearing-impaired listeners are also impaired for the localization of sounds...
This article presents results of investigations of the angle of directional hearing acuity (ADHA) as...
Contains fulltext : 60261.pdf (publisher's version ) (Open Access)Monaurally deaf ...
Monaurally deaf people lack the binaural acoustic difference cues in sound level and timing that are...
Humansound localization results primarily fromtheprocessingof binaural differences in sound level an...
Contains fulltext : 32926.pdf (publisher's version ) (Open Access)Human sound loca...
The capacity of the auditory system to extract spatial information relies principally on the detecti...
This paper reports on the acute effects of a monaural plug on directional hearing in the horizontal ...
Contains fulltext : 30082.pdf (publisher's version ) (Open Access)Human sound loca...
Human sound localization relies on binaural difference cues for sound-source azimuth and pinna-relat...
Building a realistic spatial auditory representation of our surrounding environment is an important ...
Listeners use monaural spectral cues to localize sound sources in sagittal planes (along the up-down...
Localizing a sound source requires the auditory system to determine its direction and its distance. ...
Under certain conditions, sighted and blind humans can use echoes to discern characteristics of othe...
Spatial hearing, which largely relies on binaural time/level cues, is a challenge for patients with ...
The questions of whether hearing-impaired listeners are also impaired for the localization of sounds...
This article presents results of investigations of the angle of directional hearing acuity (ADHA) as...