Auralisation with generic, non-individualised, Head Related Transfer Functions (HRTF) is common practice, as obtaining individualised HRTFs poses very serious practical difficulties. It is therefore extremely important to assess to what extent this hinders our 3D sound localisation capabilities. Here, we address this issue from a learning perspective. We carried out a set of experiments to better understand how the 3D virtual source lo-calisation performance of listeners using generic HRTF is influenced by training. In experiment 1, we observed that listeners perform fairly well in terms of azimuth discrimination, but mere exposure to the tests does not cause performance improvement. In experiments 2 and 3 we implemented a short training pe...
Individually fitting head related transfer functions (HRTF) play an increasingly important role in t...
This paper explores the limits of human localization of sound sources when listening with non-indivi...
The head-related transfer functions (HRTFs) describe individual acoustic transformation that sound s...
Auralization is a powerful tool to increase the realism and sense of immersion in Virtual Reality en...
Auralisations with HRTFs are an innovative tool for the reproduction of acoustic space. Their broad ...
Head-related transfer functions (HRTFs) capture the direction-dependant way that sound interacts wit...
Auralisations with HRTFs are an innovative tool for the reproduction of acoustic space. Their broad ...
Auditory spatial localization in humans is performed using a combination of interaural time differen...
Individual head-related transfer functions (HRTFs) improve localization accuracy and externalization...
This study examines the efficiency of a training protocol using a virtual reality application design...
It is likely that experiences of presence and self-motion elicited by binaurally simulated and repro...
This study examines the effect of adaptation to non-ideal auditory localization cues represented by ...
In dynamic virtual reality, visual cues and motor actions aid auditory perception. With multimodal i...
International audienceThis paper presents a study about the effect of using additional audio cueing ...
Individually fitting head related transfer functions (HRTF) play an increasingly important role in t...
This paper explores the limits of human localization of sound sources when listening with non-indivi...
The head-related transfer functions (HRTFs) describe individual acoustic transformation that sound s...
Auralization is a powerful tool to increase the realism and sense of immersion in Virtual Reality en...
Auralisations with HRTFs are an innovative tool for the reproduction of acoustic space. Their broad ...
Head-related transfer functions (HRTFs) capture the direction-dependant way that sound interacts wit...
Auralisations with HRTFs are an innovative tool for the reproduction of acoustic space. Their broad ...
Auditory spatial localization in humans is performed using a combination of interaural time differen...
Individual head-related transfer functions (HRTFs) improve localization accuracy and externalization...
This study examines the efficiency of a training protocol using a virtual reality application design...
It is likely that experiences of presence and self-motion elicited by binaurally simulated and repro...
This study examines the effect of adaptation to non-ideal auditory localization cues represented by ...
In dynamic virtual reality, visual cues and motor actions aid auditory perception. With multimodal i...
International audienceThis paper presents a study about the effect of using additional audio cueing ...
Individually fitting head related transfer functions (HRTF) play an increasingly important role in t...
This paper explores the limits of human localization of sound sources when listening with non-indivi...
The head-related transfer functions (HRTFs) describe individual acoustic transformation that sound s...