We present a frequency domain technique for investigating the relationship between acoustic properties of the human hearing system and the morphology responsible for creating them. Exploiting reciprocity, the boundary element method is applied to determine head-related transfer functions (HRTFs) for various directions and distances from a surface mesh model of a head and pinnae. Small orthogonal surface harmonic deformations are applied to the mesh one at a time and stored in a database together with the resulting, approximately linear, changes to the HRTFs (delta HRTFs). Once the computationally intensive process of constructing the database has been completed, identifying the morphological origins of arbitrary acoustic spectral fe...
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 is concerned with the spatial acoustic response of the human pinna modelled with the boun...
With the proliferation of immersive technologies in virtual reality (VR), broadcasting and home ent...
In this work, we explore the potential for morphological weighting of different regions of the pinna...
This thesis investigates various aspects of numerically modelled individualised HRTFs. The computer ...
The work reported in this thesis focuses on the calculation of the head-related transfer functions (...
This paper describes features in the ear shape that change across a population of ears and explores ...
This paper studies the relationship between head-related transfer functions (HRTFs) and pinna reflec...
International audienceThis paper describes how Large Deformation Diffeomorphic Metric Mapping (LDDMM...
This paper studies the relationship between head-related transfer functions (HRTFs) and pinna reflec...
This research investigates various aspects of the Head-Related Transfer Function (abbreviated HRTF),...
This paper investigates various aspects of numerically modelled individualised head-related (and pin...
While previous research on spatial sound perception investigated the physical mechanisms producing t...
While previous research on spatial sound perception investigated the physical mechanisms producing t...
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 is concerned with the spatial acoustic response of the human pinna modelled with the boun...
With the proliferation of immersive technologies in virtual reality (VR), broadcasting and home ent...
In this work, we explore the potential for morphological weighting of different regions of the pinna...
This thesis investigates various aspects of numerically modelled individualised HRTFs. The computer ...
The work reported in this thesis focuses on the calculation of the head-related transfer functions (...
This paper describes features in the ear shape that change across a population of ears and explores ...
This paper studies the relationship between head-related transfer functions (HRTFs) and pinna reflec...
International audienceThis paper describes how Large Deformation Diffeomorphic Metric Mapping (LDDMM...
This paper studies the relationship between head-related transfer functions (HRTFs) and pinna reflec...
This research investigates various aspects of the Head-Related Transfer Function (abbreviated HRTF),...
This paper investigates various aspects of numerically modelled individualised head-related (and pin...
While previous research on spatial sound perception investigated the physical mechanisms producing t...
While previous research on spatial sound perception investigated the physical mechanisms producing t...
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 is concerned with the spatial acoustic response of the human pinna modelled with the boun...