Add to ORKGAuralisations with HRTFs are an innovative tool for the reproduction of acoustic space. Their broad applicability depends on the use of non-individualised models, but little is known on how humans adapt to these sounds. Previous findings have shown that simple exposure to non-individualised virtual sounds did not provide a quick adaptation, but that training and feedback would boost this process. Here, we were interested in analyzing the long-term effect of such training-based adaptation. We trained listeners in azimuth and elevation discrimination in two separate experiments and retested them immediately, one hour, one day, one week and one month after. Results revealed that, with active learning and feedback, all participants lowered thei...
When performing binaural spatialisation, it is widely accepted that the choice of the head related t...
Contains fulltext : 32926.pdf (publisher's version ) (Open Access)Human sound loca...
Humansound localization results primarily fromtheprocessingof binaural differences in sound level an...
Auralisations with HRTFs are an innovative tool for the reproduction of acoustic space. Their broad ...
Auralization is a powerful tool to increase the realism and sense of immersion in Virtual Reality en...
Head-related transfer functions (HRTFs) capture the direction-dependant way that sound interacts wit...
Auralisation with generic, non-individualised, Head Related Transfer Functions (HRTF) is common prac...
International audiencePrevious studies have demonstrated that it is possible for humans to adapt to ...
Individual head-related transfer functions (HRTFs) improve localization accuracy and externalization...
This study examines the effect of adaptation to non-ideal auditory localization cues represented by ...
In this article we present a review of current literature on adaptations to altered head-related aud...
This paper explores the limits of human localization of sound sources when listening with non-indivi...
International audienceHuman sound localization abilities rely on binaural and spectral cues. Spectra...
Auditory spatial localization in humans is performed using a combination of interaural time differen...
Background: Previous findings have shown that humans can learn to localize with altered auditory spa...
When performing binaural spatialisation, it is widely accepted that the choice of the head related t...
Contains fulltext : 32926.pdf (publisher's version ) (Open Access)Human sound loca...
Humansound localization results primarily fromtheprocessingof binaural differences in sound level an...
Auralisations with HRTFs are an innovative tool for the reproduction of acoustic space. Their broad ...
Auralization is a powerful tool to increase the realism and sense of immersion in Virtual Reality en...
Head-related transfer functions (HRTFs) capture the direction-dependant way that sound interacts wit...
Auralisation with generic, non-individualised, Head Related Transfer Functions (HRTF) is common prac...
International audiencePrevious studies have demonstrated that it is possible for humans to adapt to ...
Individual head-related transfer functions (HRTFs) improve localization accuracy and externalization...
This study examines the effect of adaptation to non-ideal auditory localization cues represented by ...
In this article we present a review of current literature on adaptations to altered head-related aud...
This paper explores the limits of human localization of sound sources when listening with non-indivi...
International audienceHuman sound localization abilities rely on binaural and spectral cues. Spectra...
Auditory spatial localization in humans is performed using a combination of interaural time differen...
Background: Previous findings have shown that humans can learn to localize with altered auditory spa...
When performing binaural spatialisation, it is widely accepted that the choice of the head related t...
Contains fulltext : 32926.pdf (publisher's version ) (Open Access)Human sound loca...
Humansound localization results primarily fromtheprocessingof binaural differences in sound level an...