Although a sound position without head movement localized, front-back confusion frequently occurs. Moreover, sound localization accuracy, especially front-back confusion, can be dramatically improved by listener head movement. This clearly shows that in sound localization both static cues involved in the sound signal input to the two ears and dynamic cues caused by listener motion are used. However, there have been few studies concerning spatial hearing dynamic situations. In this study, therefore, listener detection thresholds of movement of a sound stimulus during a sound localization task with head rotation were measured. Participants were first trained to rotate their heads at an indicated speed. Then during a sound localization trial, ...
Localizing a sound source requires the auditory system to determine its direction and its distance. ...
Localizing a sound source requires the auditory system to determine its direction and its distance. ...
During movement, the position of a sound object relative to an observer continuously changes. Nevert...
Making small head movements facilitates spatial hearing by resolving front-back confusions, otherwis...
Contains fulltext : 57201.pdf (publisher's version ) (Open Access)Human sound loca...
Previous studies have shown that the accuracy of sound localization is improved if listeners are all...
Hearing is confronted by a similar problem to vision when the observer moves. The image motion that ...
International audienceDynamic changes of the Head-Related Transfer Function renderings as a function...
A well-known problem for reproductions of binaural recordings and simulations using HRTFs other than...
This study investigates the relationship between auditory localization accuracy in the horizontal pl...
Human sound localization relies on implicit head-centered acoustic cues. However, to create a stable...
The auditory system operates in an interactive multi-sensory setting and its representation of space...
We used a dynamic auditory spatial illusion to investigate the role of self-motion and acoustics in ...
A well-known problem for reproductions of binaural recordings and simulations using HRTFs other than...
This research extends the study of head movements during listening by including various listening ta...
Localizing a sound source requires the auditory system to determine its direction and its distance. ...
Localizing a sound source requires the auditory system to determine its direction and its distance. ...
During movement, the position of a sound object relative to an observer continuously changes. Nevert...
Making small head movements facilitates spatial hearing by resolving front-back confusions, otherwis...
Contains fulltext : 57201.pdf (publisher's version ) (Open Access)Human sound loca...
Previous studies have shown that the accuracy of sound localization is improved if listeners are all...
Hearing is confronted by a similar problem to vision when the observer moves. The image motion that ...
International audienceDynamic changes of the Head-Related Transfer Function renderings as a function...
A well-known problem for reproductions of binaural recordings and simulations using HRTFs other than...
This study investigates the relationship between auditory localization accuracy in the horizontal pl...
Human sound localization relies on implicit head-centered acoustic cues. However, to create a stable...
The auditory system operates in an interactive multi-sensory setting and its representation of space...
We used a dynamic auditory spatial illusion to investigate the role of self-motion and acoustics in ...
A well-known problem for reproductions of binaural recordings and simulations using HRTFs other than...
This research extends the study of head movements during listening by including various listening ta...
Localizing a sound source requires the auditory system to determine its direction and its distance. ...
Localizing a sound source requires the auditory system to determine its direction and its distance. ...
During movement, the position of a sound object relative to an observer continuously changes. Nevert...