Boundary element simulations of the transfer function of human heads and baffled pinnae using accurate geometric models
Boundary element simulations of the transfer function of human heads and baffled pinnae using accurate geometric models
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, and vigilant optimisation of the manipulated mesh models and the solving procedures, heads with pinnae (but without torso) can be investigated at least up to 10 kHz, and baffled pinnae can be investigated up to 20 kHz. We conclude that it is possible to implement individualised HRTFs in a 3-D sound system or an auditory display, without the need for measurements in an anechoic chamber, if highly accurate 3-D images of the head and pinnae are captured and modelled with BEM.
552-579
Kahana, Yuvi
2717aa40-1663-4de3-955b-2296132fd175
Nelson, Philip A.
5c6f5cc9-ea52-4fe2-9edf-05d696b0c1a9
6 March 2007
Kahana, Yuvi
2717aa40-1663-4de3-955b-2296132fd175
Nelson, Philip A.
5c6f5cc9-ea52-4fe2-9edf-05d696b0c1a9
Kahana, Yuvi and Nelson, Philip A.
(2007)
Boundary element simulations of the transfer function of human heads and baffled pinnae using accurate geometric models.
Journal of Sound and Vibration, 300 (3-5), .
(doi:10.1016/j.jsv.2006.06.079).
Abstract
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, and vigilant optimisation of the manipulated mesh models and the solving procedures, heads with pinnae (but without torso) can be investigated at least up to 10 kHz, and baffled pinnae can be investigated up to 20 kHz. We conclude that it is possible to implement individualised HRTFs in a 3-D sound system or an auditory display, without the need for measurements in an anechoic chamber, if highly accurate 3-D images of the head and pinnae are captured and modelled with BEM.
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Published date: 6 March 2007
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Local EPrints ID: 71458
URI: http://eprints.soton.ac.uk/id/eprint/71458
ISSN: 0022-460X
PURE UUID: 88eb5654-9164-4304-af00-204cc3c50bb2
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Date deposited: 11 Feb 2010
Last modified: 14 Mar 2024 02:32
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Author:
Yuvi Kahana
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