Contains fulltext : 60261.pdf (publisher's version ) (Open Access)Monaurally deaf people lack the binaural acoustic difference cues in sound level and timing that are needed to encode sound location in the horizontal plane (azimuth). It has been proposed that these people therefore rely on spectral pinna cues of their normal ear to localize sounds. However, the acoustic head-shadow effect (HSE) might also serve as an azimuth cue, despite its ambiguity when absolute sound levels are unknown. Here, we assess the contribution of either cue in the monaural deaf to two-dimensional (2D) sound localization. In a localization test with randomly interleaved sound levels, we show that all monaurally deaf listeners relied heavily on ...
Building a realistic spatial auditory representation of our surrounding environment is an important ...
It is well known that interaural time difference, interaural level difference and spectral cue are u...
Listeners use monaural spectral cues to localize sound sources in sagittal planes (along the up-down...
Monaurally deaf people lack the binaural acoustic difference cues in sound level and timing that are...
Monaurally deaf people lack the binaural acoustic difference cues in sound level and timing that are...
Contains fulltext : 30082.pdf (publisher's version ) (Open Access)Human sound loca...
Contains fulltext : 135155.pdf (publisher's version ) (Open Access)Direction-speci...
Contains fulltext : 32926.pdf (publisher's version ) (Open Access)Human sound loca...
Humansound localization results primarily fromtheprocessingof binaural differences in sound level an...
This paper reports on the acute effects of a monaural plug on directional hearing in the horizontal ...
Human sound localization relies on binaural difference cues for sound-source azimuth and pinna-relat...
AbstractUnder certain conditions, sighted and blind humans can use echoes to discern characteristics...
Under certain conditions, sighted and blind humans can use echoes to discern characteristics of othe...
The contention that normally binaural listeners can localize sound under monaural conditions has bee...
The auditory system operates in an interactive multi-sensory setting and its representation of space...
Building a realistic spatial auditory representation of our surrounding environment is an important ...
It is well known that interaural time difference, interaural level difference and spectral cue are u...
Listeners use monaural spectral cues to localize sound sources in sagittal planes (along the up-down...
Monaurally deaf people lack the binaural acoustic difference cues in sound level and timing that are...
Monaurally deaf people lack the binaural acoustic difference cues in sound level and timing that are...
Contains fulltext : 30082.pdf (publisher's version ) (Open Access)Human sound loca...
Contains fulltext : 135155.pdf (publisher's version ) (Open Access)Direction-speci...
Contains fulltext : 32926.pdf (publisher's version ) (Open Access)Human sound loca...
Humansound localization results primarily fromtheprocessingof binaural differences in sound level an...
This paper reports on the acute effects of a monaural plug on directional hearing in the horizontal ...
Human sound localization relies on binaural difference cues for sound-source azimuth and pinna-relat...
AbstractUnder certain conditions, sighted and blind humans can use echoes to discern characteristics...
Under certain conditions, sighted and blind humans can use echoes to discern characteristics of othe...
The contention that normally binaural listeners can localize sound under monaural conditions has bee...
The auditory system operates in an interactive multi-sensory setting and its representation of space...
Building a realistic spatial auditory representation of our surrounding environment is an important ...
It is well known that interaural time difference, interaural level difference and spectral cue are u...
Listeners use monaural spectral cues to localize sound sources in sagittal planes (along the up-down...