Abstract—This paper faces the general problem of modeling pinna-related transfer functions (PRTFs) for 3-D sound render-ing. Following a structural approach, we aim at constructing a model for PRTF synthesis which allows to control separately the evolution of ear resonances and spectral notches through the design of two distinct filter blocks. Taking such model as endpoint, we propose a method based on the McAulay-Quatieri partial tracking algorithm to extract the frequencies of the most important spectral notches. Ray-tracing analysis performed on the so obtained tracks reveals a convincing correspondence between extracted frequencies and pinna geometry of a bunch of subjects. I
This paper proposes a method to model Head-Related Transfer Functions (HRTFs) based on the shape and...
One of the most popular techniques for creating spatialized virtual sounds is based on the use of He...
International audienceHead-related transfer function individualization is a key matter in binaural s...
This paper faces the general problem of modeling pinna-related transfer functions (PRTFs) for 3-D so...
This paper considers the general problem of modeling pinna-related transfer functions (PRTFs) for 3-...
This paper faces the general problem of modeling pinna-related transfer functions (PRTFs) for 3-D so...
This paper considers the general problem of modeling pinna-related transfer functions (PRTFs) for 3-...
This paper faces the general problem of modeling pinnarelated transfer functions (PRTFs) for 3-D sou...
This paper considers the problem of modeling pinna-related transfer functions (PRTFs) for 3-D sound ...
This paper considers the problem of modeling pinna-related transfer functions (PRTFs) for 3-D sound ...
The acoustic effects undergone by a sound wave on its way from the source to the listener's ears are...
HRTF individualization is a critical issue in high fidelity virtual auditory spaces using binaural r...
Abstract—This paper studies the relationship between head-re-lated transfer functions (HRTFs) and pi...
This paper addresses the problem of modeling head-related transfer functions (HRTFs) for 3-D audio r...
While previous research on spatial sound perception investigated the physical mechanisms producing t...
This paper proposes a method to model Head-Related Transfer Functions (HRTFs) based on the shape and...
One of the most popular techniques for creating spatialized virtual sounds is based on the use of He...
International audienceHead-related transfer function individualization is a key matter in binaural s...
This paper faces the general problem of modeling pinna-related transfer functions (PRTFs) for 3-D so...
This paper considers the general problem of modeling pinna-related transfer functions (PRTFs) for 3-...
This paper faces the general problem of modeling pinna-related transfer functions (PRTFs) for 3-D so...
This paper considers the general problem of modeling pinna-related transfer functions (PRTFs) for 3-...
This paper faces the general problem of modeling pinnarelated transfer functions (PRTFs) for 3-D sou...
This paper considers the problem of modeling pinna-related transfer functions (PRTFs) for 3-D sound ...
This paper considers the problem of modeling pinna-related transfer functions (PRTFs) for 3-D sound ...
The acoustic effects undergone by a sound wave on its way from the source to the listener's ears are...
HRTF individualization is a critical issue in high fidelity virtual auditory spaces using binaural r...
Abstract—This paper studies the relationship between head-re-lated transfer functions (HRTFs) and pi...
This paper addresses the problem of modeling head-related transfer functions (HRTFs) for 3-D audio r...
While previous research on spatial sound perception investigated the physical mechanisms producing t...
This paper proposes a method to model Head-Related Transfer Functions (HRTFs) based on the shape and...
One of the most popular techniques for creating spatialized virtual sounds is based on the use of He...
International audienceHead-related transfer function individualization is a key matter in binaural s...