Contains fulltext : 32926.pdf (publisher's version ) (Open Access)Human sound localization results primarily from the processing of binaural differences in sound level and arrival time for locations in the horizontal plane (azimuth) and of spectral shape cues generated by the head and pinnae for positions in the vertical plane (elevation). The latter mechanism incorporates two processing stages: a spectral-to-spatial mapping stage and a binaural weighting stage that determines the contribution of each ear to perceived elevation as function of sound azimuth. We demonstrated recently that binaural pinna molds virtually abolish the ability to localize sound-source elevation, but, after several weeks, subjects regained normal ...
Contains fulltext : 59358.pdf (publisher's version ) (Open Access)The localization...
In this article we present a review of current literature on adaptations to altered head-related aud...
Building a realistic spatial auditory representation of our surrounding environment is an important ...
Human sound localization results primarily from the processing of binaural differences in sound leve...
Humansound localization results primarily fromtheprocessingof binaural differences in sound level an...
Contains fulltext : 30082.pdf (publisher's version ) (Open Access)Human sound loca...
Localizing a sound source involves the detection and integration of various spatial cues present in ...
Human sound localization relies on binaural difference cues for sound-source azimuth and pinna-relat...
Monaurally deaf people lack the binaural acoustic difference cues in sound level and timing that are...
Contains fulltext : 60261.pdf (publisher's version ) (Open Access)Monaurally deaf ...
The auditory system operates in an interactive multi-sensory setting and its representation of space...
Contains fulltext : 135155.pdf (publisher's version ) (Open Access)Direction-speci...
The shape of the pinna results in spectral cues to sound location. Over a life time the pinna shape ...
This paper reports on the acute effects of a monaural plug on directional hearing in the horizontal ...
The auditory system of adult listeners has been shown to accommodate to altered spectral cues to sou...
Contains fulltext : 59358.pdf (publisher's version ) (Open Access)The localization...
In this article we present a review of current literature on adaptations to altered head-related aud...
Building a realistic spatial auditory representation of our surrounding environment is an important ...
Human sound localization results primarily from the processing of binaural differences in sound leve...
Humansound localization results primarily fromtheprocessingof binaural differences in sound level an...
Contains fulltext : 30082.pdf (publisher's version ) (Open Access)Human sound loca...
Localizing a sound source involves the detection and integration of various spatial cues present in ...
Human sound localization relies on binaural difference cues for sound-source azimuth and pinna-relat...
Monaurally deaf people lack the binaural acoustic difference cues in sound level and timing that are...
Contains fulltext : 60261.pdf (publisher's version ) (Open Access)Monaurally deaf ...
The auditory system operates in an interactive multi-sensory setting and its representation of space...
Contains fulltext : 135155.pdf (publisher's version ) (Open Access)Direction-speci...
The shape of the pinna results in spectral cues to sound location. Over a life time the pinna shape ...
This paper reports on the acute effects of a monaural plug on directional hearing in the horizontal ...
The auditory system of adult listeners has been shown to accommodate to altered spectral cues to sou...
Contains fulltext : 59358.pdf (publisher's version ) (Open Access)The localization...
In this article we present a review of current literature on adaptations to altered head-related aud...
Building a realistic spatial auditory representation of our surrounding environment is an important ...