Ten questions concerning active noise control in the built environment
Ten questions concerning active noise control in the built environment
Urban noise pollution is an omnipresent but often neglected threat to public health that must be addressed urgently. Passive noise control measures, which are less effective at reducing low-frequency noise and are often bulky and may impede airflow. As evidenced in automobiles, active control of cabin noise has resulted in lighter cars due to reduced passive insulation. Despite its long history and recent popularisation by consumer headphones, the implementation of active noise control in the built environment is still rare. To date, active noise control (ANC) has been demonstrated, at source, in construction machines and, in the transmission path, in noise barriers. Recent demand for naturally-ventilated buildings has also spurred the development of active control solutions at the receiving end, such as on windows. The ten questions aim to demystify the principles of ANC and highlight areas in which environmental noise can be actively mitigated. Since the implementation of active control in the built environment usually involves multiple stakeholders, operational concerns are addressed. To conclude, research gaps are identified that would enable increased adoption of ANC in the built environment. There is also renewed interest in applying intelligent ANC to tackle environmentally complex applications, such as varying noise levels in the earcup of ANC headphones, particularly with the advent of the low-cost, low-power, highly-efficient embedded electronics; advancing speaker technology; and new impetus from digital signal processing and artificial intelligence Algorithms.
Natural ventilation, active and passive noise control, building facade, noise barrier, noise control applications, soundscape
Lam, Bhan
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Gan, Woon-Seng
1936c59c-0552-498c-86a4-20bb81bb561a
Shi, Dongyuan
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Nishimura, Masaharu
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Elliott, Stephen
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August 2021
Lam, Bhan
aafb1b4c-ce14-4909-97f4-9775b11f4348
Gan, Woon-Seng
1936c59c-0552-498c-86a4-20bb81bb561a
Shi, Dongyuan
20b1a768-6034-462a-a9c1-6c6a7a643650
Nishimura, Masaharu
e72c884f-ff4c-4716-96cd-ef91f713e7c6
Elliott, Stephen
721dc55c-8c3e-4895-b9c4-82f62abd3567
Lam, Bhan, Gan, Woon-Seng, Shi, Dongyuan, Nishimura, Masaharu and Elliott, Stephen
(2021)
Ten questions concerning active noise control in the built environment.
Building and Environment, 200, [107928].
(doi:10.1016/j.buildenv.2021.107928).
Abstract
Urban noise pollution is an omnipresent but often neglected threat to public health that must be addressed urgently. Passive noise control measures, which are less effective at reducing low-frequency noise and are often bulky and may impede airflow. As evidenced in automobiles, active control of cabin noise has resulted in lighter cars due to reduced passive insulation. Despite its long history and recent popularisation by consumer headphones, the implementation of active noise control in the built environment is still rare. To date, active noise control (ANC) has been demonstrated, at source, in construction machines and, in the transmission path, in noise barriers. Recent demand for naturally-ventilated buildings has also spurred the development of active control solutions at the receiving end, such as on windows. The ten questions aim to demystify the principles of ANC and highlight areas in which environmental noise can be actively mitigated. Since the implementation of active control in the built environment usually involves multiple stakeholders, operational concerns are addressed. To conclude, research gaps are identified that would enable increased adoption of ANC in the built environment. There is also renewed interest in applying intelligent ANC to tackle environmentally complex applications, such as varying noise levels in the earcup of ANC headphones, particularly with the advent of the low-cost, low-power, highly-efficient embedded electronics; advancing speaker technology; and new impetus from digital signal processing and artificial intelligence Algorithms.
Text
ref Lam et al Building Environment 2021
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More information
Accepted/In Press date: 26 April 2021
e-pub ahead of print date: 15 May 2021
Published date: August 2021
Additional Information:
Funding Information:
This research is supported by the Singapore Ministry of National Development and the National Research Foundation , Prime Minister's Office under the Cities of Tomorrow (CoT) Research Programme (CoT Award No. COT-V4-2019-1). Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not reflect the views of the Singapore Ministry of National Development and National Research Foundation, Prime Minister's Office, Singapore. Stephen Elliott is also partially supported by the UK Engineering and Physical Sciences Research Council (EPSRC) DigiTwin project (grant EP/R006768/1 ).
Funding Information:
This research is supported by the Singapore Ministry of National Development and the National Research Foundation, Prime Minister's Office under the Cities of Tomorrow (CoT) Research Programme (CoT Award No. COT-V4-2019-1). Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not reflect the views of the Singapore Ministry of National Development and National Research Foundation, Prime Minister's Office, Singapore. Stephen Elliott is also partially supported by the UK Engineering and Physical Sciences Research Council (EPSRC) DigiTwin project (grant EP/R006768/1).
Publisher Copyright:
© 2021
Keywords:
Natural ventilation, active and passive noise control, building facade, noise barrier, noise control applications, soundscape
Identifiers
Local EPrints ID: 449688
URI: http://eprints.soton.ac.uk/id/eprint/449688
ISSN: 0360-1323
PURE UUID: 803d26c9-24a6-4f52-8431-9474f1dcc9e2
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Date deposited: 11 Jun 2021 16:30
Last modified: 16 Mar 2024 12:36
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Author:
Bhan Lam
Author:
Woon-Seng Gan
Author:
Dongyuan Shi
Author:
Masaharu Nishimura
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