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Subjective evaluation of the combining effect between the virtual bass and head related transfer functions

Subjective evaluation of the combining effect between the virtual bass and head related transfer functions
Subjective evaluation of the combining effect between the virtual bass and head related transfer functions
Earphones are commonly equipped with miniature loudspeaker units, which cannot transmit enough power of low-frequency sound. Meanwhile, there is often only one loudspeaker unit employed on each side of the earphone, whereby the multi-channel spatial audio processing cannot be applied. Therefore, the combined usage of the virtual bass (VB) and head-related transfer functions (HRTFs) is necessary for an immersive listening experience with earphones. However, the combining effect of the VB and HRTFs has not been comprehensively reported. The VB is developed based on the missing fundamental effect, providing that the presence of harmonics can be perceived as their fundamental frequency, even if the fundamental frequency is not presented. HRTFs describe the transmission process of a sound propagating from the sound source to human ears. Monaural audio processed by a pair of HRTFs can be perceived by the listener as a sound source located in the direction associated with the HRTFs. This paper carries out subjective listening tests and their results reveal that the harmonics required by the VB should be generated in the same direction as the high-frequency sound. The bass quality is rarely distorted by the presence of HRTFs, but the localization accuracy is occasionally degraded by the VB.
0736-2935
1488-1496
Institute of Noise Control Engineering of the USA
Chen, Yunqi
c028e63d-853e-4399-a258-679c3893c884
Shi, Chuang
c46f72bd-54c7-45ee-ac5d-285691fccf81
Mu, Hao
51487d65-8b45-4420-aea7-108064d1c1cf
Chen, Yunqi
c028e63d-853e-4399-a258-679c3893c884
Shi, Chuang
c46f72bd-54c7-45ee-ac5d-285691fccf81
Mu, Hao
51487d65-8b45-4420-aea7-108064d1c1cf

Chen, Yunqi, Shi, Chuang and Mu, Hao (2021) Subjective evaluation of the combining effect between the virtual bass and head related transfer functions. In InterNoise21: INTER-NOISE and NOISE-CON Congress and Conference Proceedings. vol. 970-1944, Institute of Noise Control Engineering of the USA. pp. 1488-1496 . (doi:10.3397/IN-2021-1854).

Record type: Conference or Workshop Item (Paper)

Abstract

Earphones are commonly equipped with miniature loudspeaker units, which cannot transmit enough power of low-frequency sound. Meanwhile, there is often only one loudspeaker unit employed on each side of the earphone, whereby the multi-channel spatial audio processing cannot be applied. Therefore, the combined usage of the virtual bass (VB) and head-related transfer functions (HRTFs) is necessary for an immersive listening experience with earphones. However, the combining effect of the VB and HRTFs has not been comprehensively reported. The VB is developed based on the missing fundamental effect, providing that the presence of harmonics can be perceived as their fundamental frequency, even if the fundamental frequency is not presented. HRTFs describe the transmission process of a sound propagating from the sound source to human ears. Monaural audio processed by a pair of HRTFs can be perceived by the listener as a sound source located in the direction associated with the HRTFs. This paper carries out subjective listening tests and their results reveal that the harmonics required by the VB should be generated in the same direction as the high-frequency sound. The bass quality is rarely distorted by the presence of HRTFs, but the localization accuracy is occasionally degraded by the VB.

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More information

Published date: 1 August 2021
Venue - Dates: Internoise 2021, , Washington, D.C., United States, 2021-08-01 - 2021-08-05

Identifiers

Local EPrints ID: 484107
URI: http://eprints.soton.ac.uk/id/eprint/484107
DOI: doi:10.3397/IN-2021-1854
ISSN: 0736-2935
PURE UUID: 5f754c89-1c6c-4550-af7b-a6cdf4c7d248
ORCID for Chuang Shi: ORCID iD orcid.org/0000-0002-1517-2775

Catalogue record

Date deposited: 10 Nov 2023 17:51
Last modified: 18 Mar 2024 04:13

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Author: Yunqi Chen
Author: Chuang Shi ORCID iD
Author: Hao Mu

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