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A principal components analysis (PCA) of the median-plane head-related impulse responses (HRIRs) in the CIPIC HRTF database reveals that the individual HRIRs in the median plane can be adequately reconstructed by a linear combination of 12 orthonormal...
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RISS 인기검색어
https://www.riss.kr/link?id=A100173137
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2008
-
작성언어
Korean
- 주제어
-
KDC
424
-
등재정보
KCI등재
-
자료형태
학술저널
-
수록면
448-457(10쪽)
-
KCI 피인용횟수
1
- DOI식별코드
- 제공처
- 소장기관
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
A principal components analysis (PCA) of the median-plane head-related impulse responses (HRIRs) in the CIPIC HRTF database reveals that the individual HRIRs in the median plane can be adequately reconstructed by a linear combination of 12 orthonormal basis functions. These basis functions can be used to model arbitrary median-plane HRIRs, which are not included in the process to obtain the basis functions. Memory size can be reduced up to 5-fold depending on the number of HRIRs to be modeled. To clarify whether these basis functions can be used to model other set of arbitrary median plane HRIRs, a numerical error analysis for modeling and a series of subjective listening tests were carried out using the measured and modeled HRIRs. The results showed that the set of individual HRIRs in the median plane, which were measured in our lab using different measurement conditions, techniques, and source positions, can be modeled with reasonable accuracy. All subjects, involved in the subjective listening test, reported not only the accurate vertical perception but also the front-back discrimination with the modeled HRIRs based on 12 basis functions.
A principal components analysis (PCA) of the median-plane head-related impulse responses (HRIRs) in the CIPIC HRTF database reveals that the individual HRIRs in the median plane can be adequately reconstructed by a linear combination of 12 orthonormal basis functions. These basis functions can be used to model arbitrary median-plane HRIRs, which are not included in the process to obtain the basis functions. Memory size can be reduced up to 5-fold depending on the number of HRIRs to be modeled. To clarify whether these basis functions can be used to model other set of arbitrary median plane HRIRs, a numerical error analysis for modeling and a series of subjective listening tests were carried out using the measured and modeled HRIRs. The results showed that the set of individual HRIRs in the median plane, which were measured in our lab using different measurement conditions, techniques, and source positions, can be modeled with reasonable accuracy. All subjects, involved in the subjective listening test, reported not only the accurate vertical perception but also the front-back discrimination with the modeled HRIRs based on 12 basis functions.
참고문헌 (Reference)
1 박영진, "주성분 분석을 이용한 HRIR 맞춤 기법" 한국소음진동공학회 17 (17): 638-648, 2007
2 Kulkarni, A., "Variability in the Characterization of the Headphone Transfer-function" 107 : 1071-1074, 2000
3 Morimoto, M., "Upper Hemisphere Sound Localization Using Head-related Transfer Functions in the Median Plane and Interaural Differences" 24 : 267-275, 2003
4 Møller, H., "Transfer Characteristics of Headphones Measured on Human Ears" 43 : 203-217, 1995
5 Morimoto, M., "The Contribution of Two Ears to the Perception of Vertical Angle in Sagittal Planes" 109 : 1596-1603, 2001
6 Algazi, V. R., "The CIPIC HRTF Database" New Paltz 99-102, 2001
7 Hebrank, J., "Spectral Cues Used in the Localization of Sound Sources on the Median Plane" 56 : 1829-1834, 1974
8 Blauert, J., "Spatial Hearing" MIT Press 1996
9 Shaw, E. A. G., "Sound Pressure Generated in an External-ear Replica and Real Human Ears by a Nearby Point Source" 44 : 240-249, 1968
10 Gardner, M. B., "Problem of Localization in the Median Plane: Effect of Pinna Cavity Occlusion" 53 : 400-408, 1973
1 박영진, "주성분 분석을 이용한 HRIR 맞춤 기법" 한국소음진동공학회 17 (17): 638-648, 2007
2 Kulkarni, A., "Variability in the Characterization of the Headphone Transfer-function" 107 : 1071-1074, 2000
3 Morimoto, M., "Upper Hemisphere Sound Localization Using Head-related Transfer Functions in the Median Plane and Interaural Differences" 24 : 267-275, 2003
4 Møller, H., "Transfer Characteristics of Headphones Measured on Human Ears" 43 : 203-217, 1995
5 Morimoto, M., "The Contribution of Two Ears to the Perception of Vertical Angle in Sagittal Planes" 109 : 1596-1603, 2001
6 Algazi, V. R., "The CIPIC HRTF Database" New Paltz 99-102, 2001
7 Hebrank, J., "Spectral Cues Used in the Localization of Sound Sources on the Median Plane" 56 : 1829-1834, 1974
8 Blauert, J., "Spatial Hearing" MIT Press 1996
9 Shaw, E. A. G., "Sound Pressure Generated in an External-ear Replica and Real Human Ears by a Nearby Point Source" 44 : 240-249, 1968
10 Gardner, M. B., "Problem of Localization in the Median Plane: Effect of Pinna Cavity Occlusion" 53 : 400-408, 1973
11 Martens, W. L., "Principal Components Analysis and Resynthesis of Spectral Cues to Perceived Direction" in Proceedings of International Computer Music Conference, San Francisco 274-281, 1987
12 Blommer, M. A., "Pole-zero Approximations for Head-related Transfer Functions Using a Logarithmic Error Criterion" 5 : 278-287, 1997
13 Middlebrooks, J. C., "Observations on a Principal Components Analysis of Head-related Transfer Functions" 92 : 597-599, 1992
14 Iida, K., "Median Plane Localization Using a Parametric Model of the Head-related Transfer Function Based on Spectral Cues" 68 : 835-850, 2007
15 Yim, J., "Lower-order ARMA Modeling of Head-related Transfer Functions for Sound-field Synthesis System" 15 : 37-44, 1996
16 Mackenzie, J., "Low-order Modelling of Head-related Transfer Functions Using Balanced Model Truncation" 4 : 39-41, 1997
17 Cheng, C. I., "Introduction to Head-related Transfer Functions (HRTFs): Representations of HRTFs in Time, Frequency, and Space" 49 : 231-248, 2001
18 Hwang, S., "Interpretations on Principal Components Analysis of Head-related Impulse Responses in the Median Plane" 123 : EL65-71, 2008
19 Kulkarni, A., "Infinite-impulse-response Models of the Head-related Transfer Function" 115 : 1714-1728, 2004
20 김시호, "HRTF를 이용한 헤드폰 기반의 다채널 입체음향 생성" 대한전자공학회 42 (42): 71-78, 2005
21 Møller, H., "Fundamentals of Binaural Technology" 36 : 171-218, 1992
22 Raykar, V. C., "Extracting the Frequencies of the Pinna Spectral Notches in Measured Head Related Impulse Responses" 118 : 364-374, 2005
23 Algazi, V. R., "Elevation Localization and Head-related Transfer Function Analysis at Low Frequencies" 109 : 1110-1122, 2001
24 Durant, E. A., "Efficient Model Fitting Using a Genetic Algorithm: Pole-zero Approximations of HRTFs" 10 : 18-27, 2002
25 Møller, H., "Design Criteria for Headphones" 43 : 218-232, 1995
26 Haneda, Y., "Common-acoustic-pole and Zero Modelling of Head-related Transfer Functions" 7 : 188-196, 1999
27 Brungart. D. S., "Auditory Localization of Nearby Sources. Head-related Transfer Functions" 106 : 1465-1479, 1999
28 Wu, Z., "A Time Domain Binaural Model Based on Spatial Feature Extraction for the Head-related Transfer Function" 102 : 2211-2218, 1997
29 Brown, C. P., "A Structural Model for Binaural Sound Synthesis" 6 : 476-488, 1998
30 Kistler, D. J., "A Model of Head-related Transfer Functions Based on Principal Components Analysis and Minimum-phase Reconstruction" 91 : 1637-1647, 1992
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분석정보
인용정보 인용지수 설명보기
학술지 이력
| 연월일 | 이력구분 | 이력상세 | 등재구분 |
|---|---|---|---|
| 2026 | 평가예정 | 재인증평가 신청대상 (재인증) | |
| 2020-01-01 | 평가 | 등재학술지 유지 (재인증) |  |
| 2017-01-01 | 평가 | 등재학술지 유지 (계속평가) | |
| 2013-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
| 2010-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
| 2009-02-05 | 학회명변경 | 영문명 : Korean Society For Noise And Vibration Engeering (Ksnve) -> Korean Society for Noise and Vibration Engineering(KSNVE) | |
| 2008-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
| 2006-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
| 2004-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
| 2001-07-01 | 평가 | 등재학술지 선정 (등재후보2차) | |
| 1999-01-01 | 평가 | 등재후보학술지 선정 (신규평가) |  |
학술지 인용정보
| 기준연도 | WOS-KCI 통합IF(2년) | KCIF(2년) | KCIF(3년) |
|---|---|---|---|
| 2016 | 0.28 | 0.28 | 0.26 |
| KCIF(4년) | KCIF(5년) | 중심성지수(3년) | 즉시성지수 |
| 0.25 | 0.23 | 0.457 | 0.05 |
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