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Study on active noise control system using parametric array loudspeakers

Study on active noise control system using parametric array loudspeakers
Study on active noise control system using parametric array loudspeakers
In this paper, we propose an active noise control (ANC) system using parametric array loudspeakers (PALs). Conventional active noise control systems using ordinary loudspeakers as control sources may result in unwanted increment of sound pressure levels outside the target points (quiet zones). Moreover, a multiple-channel ANC system increases the computational complexity significantly as compared to a single-channel ANC system. The proposed ANC system can not only reduce unwanted acoustic noise levels at the desired locations but also suppress the increment in sound pressure levels at other locations because the PALs have a super-directivity feature. If interferences between different channels of the proposed ANC system are minimized, each channel in this ANC system can be controlled independently. We have attempted to apply the proposed system in a factory where manufacturing equipment generates noise levels of over 90 dB. Due to the distribution and multiple-path propagations of noise sources, conventional ANC system cannot work effectively. In addition, the installation locations of the control sources are constrained for safety consideration. For these reasons, comparative experiments have been conducted to find the optimized locations to install PALs in a Case(1,2,2) ANC system. Recent results of the proposed ANC system are presented and remaining issues are discussed in this paper.
Tanaka, Kihiro
f43febb9-0fd9-48bc-bcf9-69d665927f34
Shi, Chuang
c46f72bd-54c7-45ee-ac5d-285691fccf81
Kajikawa, Yoshinobu
a7d32c43-f780-4ae0-884c-08fe6f70c582
Tanaka, Kihiro
f43febb9-0fd9-48bc-bcf9-69d665927f34
Shi, Chuang
c46f72bd-54c7-45ee-ac5d-285691fccf81
Kajikawa, Yoshinobu
a7d32c43-f780-4ae0-884c-08fe6f70c582

Tanaka, Kihiro, Shi, Chuang and Kajikawa, Yoshinobu (2014) Study on active noise control system using parametric array loudspeakers. 7th Forum Acusticum, FA 2014, , Krakow, Poland. 07 - 12 Sep 2014.

Record type: Conference or Workshop Item (Paper)

Abstract

In this paper, we propose an active noise control (ANC) system using parametric array loudspeakers (PALs). Conventional active noise control systems using ordinary loudspeakers as control sources may result in unwanted increment of sound pressure levels outside the target points (quiet zones). Moreover, a multiple-channel ANC system increases the computational complexity significantly as compared to a single-channel ANC system. The proposed ANC system can not only reduce unwanted acoustic noise levels at the desired locations but also suppress the increment in sound pressure levels at other locations because the PALs have a super-directivity feature. If interferences between different channels of the proposed ANC system are minimized, each channel in this ANC system can be controlled independently. We have attempted to apply the proposed system in a factory where manufacturing equipment generates noise levels of over 90 dB. Due to the distribution and multiple-path propagations of noise sources, conventional ANC system cannot work effectively. In addition, the installation locations of the control sources are constrained for safety consideration. For these reasons, comparative experiments have been conducted to find the optimized locations to install PALs in a Case(1,2,2) ANC system. Recent results of the proposed ANC system are presented and remaining issues are discussed in this paper.

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More information

Published date: 7 September 2014
Venue - Dates: 7th Forum Acusticum, FA 2014, , Krakow, Poland, 2014-09-07 - 2014-09-12

Identifiers

Local EPrints ID: 484475
URI: http://eprints.soton.ac.uk/id/eprint/484475
PURE UUID: dfbca536-021d-4b5c-a30a-b0718e57aca8
ORCID for Chuang Shi: ORCID iD orcid.org/0000-0002-1517-2775

Catalogue record

Date deposited: 16 Nov 2023 13:20
Last modified: 17 Nov 2023 03:08

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Contributors

Author: Kihiro Tanaka
Author: Chuang Shi ORCID iD
Author: Yoshinobu Kajikawa

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