Comparison of spherical harmonics based 3D-HRTF functional models

Rodney A. Kennedy; Wen Zhang; Thushara D. Abhayapala

doi:10.1109/ICSPCS.2013.6723906

Comparison of spherical harmonics based 3D-HRTF functional models

Rodney A. Kennedy, Wen Zhang, Thushara D. Abhayapala

Australian National University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

2 Scopus citations

Abstract

The modeling performance of three models for the 3D Head Related Transfer Function (HRTF) are compared. One of these models appeared recently in the literature whilst the other two models are novel. All models belong to the class of functional models whereby the 3D-HRTF is expressed as an expansion in terms of basis functions, which are functions of azimuth, elevation, radial distance and frequency. The expansion coefficients capture the 3D-HRTF individualization. The models differ in the choice of basis functions and the degree of orthogonality that is possibly given the constraint that for each frequency the HRTF needs to satisfy the Helmholtz wave equation. One model introduced in this paper is designed to provide a functional representation that is orthonormal on a sphere at some nominal radius and approximately so around that nominal radius. This model is shown to be superior to the other two in being able to reconstruct most efficiently the 3D-HRTF derived from a spherical head 3D-HRTF model. For all cases we show that there is a unified technique to estimate expansion coefficients from measurements taken on a sphere of arbitrary radius.

Original language	English
Title of host publication	2013, 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013 - Proceedings
Publisher	IEEE Computer Society
ISBN (Print)	9781479913190
DOIs	https://doi.org/10.1109/ICSPCS.2013.6723906
State	Published - 2013
Externally published	Yes
Event	2013 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013 - Gold Coast, QLD, Australia Duration: 16 Dec 2013 → 18 Dec 2013

Publication series

Name	2013, 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013 - Proceedings

Conference

Conference	2013 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013
Country/Territory	Australia
City	Gold Coast, QLD
Period	16/12/13 → 18/12/13

Keywords

2D-HRTF
3D-HRTF
Dimensionality
Functional Modeling
Head Related Transfer Functions
Helmholtz Equation
HRTF
Series Expansion

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10.1109/ICSPCS.2013.6723906

Cite this

Kennedy, R. A., Zhang, W., & Abhayapala, T. D. (2013). Comparison of spherical harmonics based 3D-HRTF functional models. In 2013, 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013 - Proceedings Article 6723906 (2013, 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013 - Proceedings). IEEE Computer Society. https://doi.org/10.1109/ICSPCS.2013.6723906

Kennedy, Rodney A. ; Zhang, Wen ; Abhayapala, Thushara D. / Comparison of spherical harmonics based 3D-HRTF functional models. 2013, 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013 - Proceedings. IEEE Computer Society, 2013. (2013, 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013 - Proceedings).

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title = "Comparison of spherical harmonics based 3D-HRTF functional models",

abstract = "The modeling performance of three models for the 3D Head Related Transfer Function (HRTF) are compared. One of these models appeared recently in the literature whilst the other two models are novel. All models belong to the class of functional models whereby the 3D-HRTF is expressed as an expansion in terms of basis functions, which are functions of azimuth, elevation, radial distance and frequency. The expansion coefficients capture the 3D-HRTF individualization. The models differ in the choice of basis functions and the degree of orthogonality that is possibly given the constraint that for each frequency the HRTF needs to satisfy the Helmholtz wave equation. One model introduced in this paper is designed to provide a functional representation that is orthonormal on a sphere at some nominal radius and approximately so around that nominal radius. This model is shown to be superior to the other two in being able to reconstruct most efficiently the 3D-HRTF derived from a spherical head 3D-HRTF model. For all cases we show that there is a unified technique to estimate expansion coefficients from measurements taken on a sphere of arbitrary radius.",

keywords = "2D-HRTF, 3D-HRTF, Dimensionality, Functional Modeling, Head Related Transfer Functions, Helmholtz Equation, HRTF, Series Expansion",

author = "Kennedy, {Rodney A.} and Wen Zhang and Abhayapala, {Thushara D.}",

year = "2013",

doi = "10.1109/ICSPCS.2013.6723906",

language = "英语",

isbn = "9781479913190",

series = "2013, 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013 - Proceedings",

publisher = "IEEE Computer Society",

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note = "2013 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013 ; Conference date: 16-12-2013 Through 18-12-2013",

}

Kennedy, RA, Zhang, W & Abhayapala, TD 2013, Comparison of spherical harmonics based 3D-HRTF functional models. in 2013, 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013 - Proceedings., 6723906, 2013, 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013 - Proceedings, IEEE Computer Society, 2013 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013, Gold Coast, QLD, Australia, 16/12/13. https://doi.org/10.1109/ICSPCS.2013.6723906

Comparison of spherical harmonics based 3D-HRTF functional models. / Kennedy, Rodney A.; Zhang, Wen; Abhayapala, Thushara D.
2013, 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013 - Proceedings. IEEE Computer Society, 2013. 6723906 (2013, 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013 - Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Kennedy, Rodney A.

AU - Zhang, Wen

AU - Abhayapala, Thushara D.

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N2 - The modeling performance of three models for the 3D Head Related Transfer Function (HRTF) are compared. One of these models appeared recently in the literature whilst the other two models are novel. All models belong to the class of functional models whereby the 3D-HRTF is expressed as an expansion in terms of basis functions, which are functions of azimuth, elevation, radial distance and frequency. The expansion coefficients capture the 3D-HRTF individualization. The models differ in the choice of basis functions and the degree of orthogonality that is possibly given the constraint that for each frequency the HRTF needs to satisfy the Helmholtz wave equation. One model introduced in this paper is designed to provide a functional representation that is orthonormal on a sphere at some nominal radius and approximately so around that nominal radius. This model is shown to be superior to the other two in being able to reconstruct most efficiently the 3D-HRTF derived from a spherical head 3D-HRTF model. For all cases we show that there is a unified technique to estimate expansion coefficients from measurements taken on a sphere of arbitrary radius.

AB - The modeling performance of three models for the 3D Head Related Transfer Function (HRTF) are compared. One of these models appeared recently in the literature whilst the other two models are novel. All models belong to the class of functional models whereby the 3D-HRTF is expressed as an expansion in terms of basis functions, which are functions of azimuth, elevation, radial distance and frequency. The expansion coefficients capture the 3D-HRTF individualization. The models differ in the choice of basis functions and the degree of orthogonality that is possibly given the constraint that for each frequency the HRTF needs to satisfy the Helmholtz wave equation. One model introduced in this paper is designed to provide a functional representation that is orthonormal on a sphere at some nominal radius and approximately so around that nominal radius. This model is shown to be superior to the other two in being able to reconstruct most efficiently the 3D-HRTF derived from a spherical head 3D-HRTF model. For all cases we show that there is a unified technique to estimate expansion coefficients from measurements taken on a sphere of arbitrary radius.

KW - 2D-HRTF

KW - 3D-HRTF

KW - Dimensionality

KW - Functional Modeling

KW - Head Related Transfer Functions

KW - Helmholtz Equation

KW - HRTF

KW - Series Expansion

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M3 - 会议稿件

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SN - 9781479913190

T3 - 2013, 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013 - Proceedings

BT - 2013, 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013 - Proceedings

PB - IEEE Computer Society

T2 - 2013 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013

Y2 - 16 December 2013 through 18 December 2013

ER -

Kennedy RA, Zhang W, Abhayapala TD. Comparison of spherical harmonics based 3D-HRTF functional models. In 2013, 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013 - Proceedings. IEEE Computer Society. 2013. 6723906. (2013, 7th International Conference on Signal Processing and Communication Systems, ICSPCS 2013 - Proceedings). doi: 10.1109/ICSPCS.2013.6723906

Comparison of spherical harmonics based 3D-HRTF functional models

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Keywords

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