Estimation of HRTFs on the horizontal plane using physical features

Sound localization can be controlled by using head related transfer functions (HRTFs), which are related to the size of the head, the ears and so on. Since HRTFs are characterized by source directions and subjects, it is necessary to conduct measurements in all directions for all subjects. However,...

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Published in	Applied acoustics Vol. 68; no. 8; pp. 897 - 908
Main Authors	Nishino, Takanori, Inoue, Naoya, Takeda, Kazuya, Itakura, Fumitada
Format	Journal Article
Language	English
Published	Oxford Elsevier Ltd 01.08.2007 Elsevier
Subjects	Acoustical measurements and instrumentation Acoustics Exact sciences and technology Fundamental areas of phenomenology (including applications) Head related transfer function Multiple regression analysis Physical feature Physics Principal component analysis Sound localization 43.66.Pn 43.66.Dc 43.66.Qp Multiple regression analysis Sound localization Physical feature Head related transfer function Principal component analysis Distortion Acoustics Sound Regression analysis Physical properties Multiple regression Head related transfer function; Physical feature; Multiple regression analysis; Principal component analysis; Sound localization 43.66.Dc; 43.66.Pn; 43.66.Qp Bandwidth Experimentation Measurement method Headphone Transfer function Localization Performance
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ISSN	0003-682X 1872-910X
DOI	10.1016/j.apacoust.2006.12.010

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Abstract	Sound localization can be controlled by using head related transfer functions (HRTFs), which are related to the size of the head, the ears and so on. Since HRTFs are characterized by source directions and subjects, it is necessary to conduct measurements in all directions for all subjects. However, such measurement is expensive and time-consuming. In this paper, we propose a simpler and more useful method that investigates the relationship between HRTFs and physical size by multiple regression analysis. The estimated HRTFs are evaluated by objective and subjective measures. For objective results, the average spectral distortion score is 4.0 dB in a bandwidth ranging from 0 to 8 kHz. Subjective results indicate no significant difference between the measured and the estimated HRTFs in that frequency range. These results support the hypothesis that the proposed method is effective for estimating HRTFs.
AbstractList	Sound localization can be controlled by using head related transfer functions (HRTFs), which are related to the size of the head, the ears and so on. Since HRTFs are characterized by source directions and subjects, it is necessary to conduct measurements in all directions for all subjects. However, such measurement is expensive and time-consuming. In this paper, we propose a simpler and more useful method that investigates the relationship between HRTFs and physical size by multiple regression analysis. The estimated HRTFs are evaluated by objective and subjective measures. For objective results, the average spectral distortion score is 4.0 dB in a bandwidth ranging from 0 to 8 kHz. Subjective results indicate no significant difference between the measured and the estimated HRTFs in that frequency range. These results support the hypothesis that the proposed method is effective for estimating HRTFs.
Author	Takeda, Kazuya Nishino, Takanori Itakura, Fumitada Inoue, Naoya
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Keywords	43.66.Pn 43.66.Dc 43.66.Qp Multiple regression analysis Sound localization Physical feature Head related transfer function Principal component analysis Distortion Acoustics Sound Regression analysis Physical properties Multiple regression Head related transfer function; Physical feature; Multiple regression analysis; Principal component analysis; Sound localization 43.66.Dc; 43.66.Pn; 43.66.Qp Bandwidth Experimentation Measurement method Headphone Transfer function Localization Performance
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SubjectTerms	Acoustical measurements and instrumentation Acoustics Exact sciences and technology Fundamental areas of phenomenology (including applications) Head related transfer function Multiple regression analysis Physical feature Physics Principal component analysis Sound localization
Title	Estimation of HRTFs on the horizontal plane using physical features
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