This paper investigates various aspects of numerically modelled individualised head-related (and pinna-related) transfer functions (HRTF). The computer simulations are based on the exact solution of the wave equation using the boundary element method (BEM). The basic features of the HRTF are investigated with accurate geometric models of two heads and six pinnae which are captured by using state-of-the-art three-dimensional (3-D) laser scanners and digitisers. These computer models are converted to valid BEM models and their frequency response is simulated. We present the results of simulated HRTFs, and show the inter-variability of the response among six baffled pinnae modelled in identical conditions. With current computing hardware power...
The scattering around the human pinna that is captured by the Head-Related Transfer Functions (HRTFs...
This paper considers the general problem of modeling pinna-related transfer functions (PRTFs) for 3-...
An investigation of the mechanical response of the human head subject to externally applied forces i...
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 (...
Simulation of head-related transfer functions (HRTFs) using the boundary element method (BEM) is a w...
This paper is concerned with the spatial acoustic response of the human pinna modelled with the boun...
Measuring the Head-Related Transfer Function (HRTF) is an efficient method that takes into considera...
The head-related transfer function (HRTF) is computed using the fast multipole accelerated boundary ...
In order to develop the 3D auditory display using a head phone which allow head movement, real time ...
Presented at the 8th International Conference on Auditory Display (ICAD), Kyoto, Japan, July 2-5, 20...
In their recent paper, Tao et. al describe the method of differential pressure synthesis (DPS), an e...
In this paper we present the Projection Based Interpolation (PBI) technique for construction of cont...
Numerical simulations offer a feasible alternative to the direct acoustic measurement of individual ...
The forward problem of electromagnetic source imaging has two components: a numerical model to solve...
The scattering around the human pinna that is captured by the Head-Related Transfer Functions (HRTFs...
This paper considers the general problem of modeling pinna-related transfer functions (PRTFs) for 3-...
An investigation of the mechanical response of the human head subject to externally applied forces i...
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 (...
Simulation of head-related transfer functions (HRTFs) using the boundary element method (BEM) is a w...
This paper is concerned with the spatial acoustic response of the human pinna modelled with the boun...
Measuring the Head-Related Transfer Function (HRTF) is an efficient method that takes into considera...
The head-related transfer function (HRTF) is computed using the fast multipole accelerated boundary ...
In order to develop the 3D auditory display using a head phone which allow head movement, real time ...
Presented at the 8th International Conference on Auditory Display (ICAD), Kyoto, Japan, July 2-5, 20...
In their recent paper, Tao et. al describe the method of differential pressure synthesis (DPS), an e...
In this paper we present the Projection Based Interpolation (PBI) technique for construction of cont...
Numerical simulations offer a feasible alternative to the direct acoustic measurement of individual ...
The forward problem of electromagnetic source imaging has two components: a numerical model to solve...
The scattering around the human pinna that is captured by the Head-Related Transfer Functions (HRTFs...
This paper considers the general problem of modeling pinna-related transfer functions (PRTFs) for 3-...
An investigation of the mechanical response of the human head subject to externally applied forces i...