This paper proposes a method to reproduce the Head Related Transfer Function (HRTF) in the horizontal auditory scene. The method is based on a separable representation which consists of a Fourier Bessel series expansion for the spectral components and a conventional Fourier series expansion for the spatial dependence. The proposed representation can be used to predict HRTFs at any azimuth position and at any frequency sampling point from a finite number of measurements. Implementation details are demonstrated in the paper. Measured HRTFs from a KEMAR manikin and analytically simulated HRTFs were used to validate the fidelity and predictive capabilities of the method. The average mean square error for model reconstruction is less than two pe...
This paper introduces Spatial Frequency Response Surfaces (SFRS's), an alternative, spatial-dom...
The head-related transfer function (HRTF) is computed using the fast multipole accelerated boundary ...
This paper addresses the problem of modeling head-related transfer functions (HRTFs) for 3-D audio r...
This paper introduces a continuous functional model for head-related transfer functions (HRTFs) in t...
This paper deals with two important questions associated with HRTF measurement: 1) "what is the requ...
This paper proposes a continuous HRTF representation in both 3D spatial and frequency domains. The m...
An experimental procedure and signal processing method to mea-sure Head Related Transfer Functions (...
Abstract:- Many spatial audio (“3D sound”) systems are based on the use of Head-Related Transfer Fun...
This paper studies head-related transfer function (HRTF) sampling and synthesis in a three-dimension...
Head Related Transfer Functions (HRTF's) characterize the transformation of a sound source to the so...
Presenting sounds to humans in virtual environments requires convolving the free field signals with ...
There has been a growing interest in spatial sound generation arising from the development of new co...
Head-Related Transfer Functions (HRTF's) describe the directionally dependent acoustic filtering pro...
New approaches to Head Related Transfer Function (HRTF) based artificial spatialisation of audio ar...
Head Related Transfer Functions (HRTF's) characterize the transformation of pressure waves from the ...
This paper introduces Spatial Frequency Response Surfaces (SFRS's), an alternative, spatial-dom...
The head-related transfer function (HRTF) is computed using the fast multipole accelerated boundary ...
This paper addresses the problem of modeling head-related transfer functions (HRTFs) for 3-D audio r...
This paper introduces a continuous functional model for head-related transfer functions (HRTFs) in t...
This paper deals with two important questions associated with HRTF measurement: 1) "what is the requ...
This paper proposes a continuous HRTF representation in both 3D spatial and frequency domains. The m...
An experimental procedure and signal processing method to mea-sure Head Related Transfer Functions (...
Abstract:- Many spatial audio (“3D sound”) systems are based on the use of Head-Related Transfer Fun...
This paper studies head-related transfer function (HRTF) sampling and synthesis in a three-dimension...
Head Related Transfer Functions (HRTF's) characterize the transformation of a sound source to the so...
Presenting sounds to humans in virtual environments requires convolving the free field signals with ...
There has been a growing interest in spatial sound generation arising from the development of new co...
Head-Related Transfer Functions (HRTF's) describe the directionally dependent acoustic filtering pro...
New approaches to Head Related Transfer Function (HRTF) based artificial spatialisation of audio ar...
Head Related Transfer Functions (HRTF's) characterize the transformation of pressure waves from the ...
This paper introduces Spatial Frequency Response Surfaces (SFRS's), an alternative, spatial-dom...
The head-related transfer function (HRTF) is computed using the fast multipole accelerated boundary ...
This paper addresses the problem of modeling head-related transfer functions (HRTFs) for 3-D audio r...