The purpose of this study was to investigate the performance effects of adding an additional sound cue characteristic to a 3-D auditory display sound stimulus to increase localization accuracy. Previous literature has provided evidence that localization accuracy for direct front and direct back regions is significantly worse than that of locations in the periphery for virtual 3-D auditory stimuli. In the study conducted, a highpass filter addition or a lowpass filter addition was compared to a normal condition for both the front and back locations. Results of the study showed that the best localization performance for the front location occurred with the normal sound stimulus, and the best localization for the back occurred with the low...
The auditory system derives locations of sound sources from spatial cues provided by the interaction...
Hearing Protection Devices (HPDs) can protect the ear against loud potentially damaging sounds while...
Localizing a sound source requires the auditory system to determine its direction and its distance. ...
In aviation, as technology becomes more advanced and more demands are placed on the human operator, ...
Non-individualized head-related transfer function (HRTF) devices cannot generate accurate directiona...
The front-back sound localization performance of human subjects was investigated in 3 virtual rooms ...
Previous studies have shown that the accuracy of sound localization is improved if listeners are all...
Localizing a sound source requires the auditory system to determine its direction and its distance. ...
International audienceThis paper presents a study about the effect of using additional audio cueing ...
A well-known problem for reproductions of binaural recordings and simulations using HRTFs other than...
Building a realistic spatial auditory representation of our surrounding environment is an important ...
International audienceThis psychoacoustical study examined individual differences in spatial hearing...
This study explores auditory processing mechanisms underlying the computation of sound source locati...
Background:There are two cues that listeners use to disambiguate the front/back location of a sound ...
The distance of sound sources relative to the body can be estimated using acoustic level and direct-...
The auditory system derives locations of sound sources from spatial cues provided by the interaction...
Hearing Protection Devices (HPDs) can protect the ear against loud potentially damaging sounds while...
Localizing a sound source requires the auditory system to determine its direction and its distance. ...
In aviation, as technology becomes more advanced and more demands are placed on the human operator, ...
Non-individualized head-related transfer function (HRTF) devices cannot generate accurate directiona...
The front-back sound localization performance of human subjects was investigated in 3 virtual rooms ...
Previous studies have shown that the accuracy of sound localization is improved if listeners are all...
Localizing a sound source requires the auditory system to determine its direction and its distance. ...
International audienceThis paper presents a study about the effect of using additional audio cueing ...
A well-known problem for reproductions of binaural recordings and simulations using HRTFs other than...
Building a realistic spatial auditory representation of our surrounding environment is an important ...
International audienceThis psychoacoustical study examined individual differences in spatial hearing...
This study explores auditory processing mechanisms underlying the computation of sound source locati...
Background:There are two cues that listeners use to disambiguate the front/back location of a sound ...
The distance of sound sources relative to the body can be estimated using acoustic level and direct-...
The auditory system derives locations of sound sources from spatial cues provided by the interaction...
Hearing Protection Devices (HPDs) can protect the ear against loud potentially damaging sounds while...
Localizing a sound source requires the auditory system to determine its direction and its distance. ...