Modeling, analysis, and validation of an active T-shaped noise barrier

With ever-increasing land traffic, abatement of traffic noise using noise barriers remains significant, yet it is a challenging task due to spatial competition with other infrastructure. In this study, a deep insight into the diffraction characteristics of acoustic fields near noise barriers of vari...

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Veröffentlicht in:	The Journal of the Acoustical Society of America 2013-09, Vol.134 (3), p.1990-2003
Hauptverfasser:	Fan, Rongping, Su, Zhongqing, Cheng, Li
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustics - instrumentation Algorithms Computer Simulation Equipment Design Least-Squares Analysis Materials Testing Models, Theoretical Motion Noise, Transportation - prevention & control Numerical Analysis, Computer-Assisted Pressure Reproducibility of Results Surface Properties
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container_end_page	2003
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container_title	The Journal of the Acoustical Society of America
container_volume	134
creator	Fan, Rongping Su, Zhongqing Cheng, Li
description	With ever-increasing land traffic, abatement of traffic noise using noise barriers remains significant, yet it is a challenging task due to spatial competition with other infrastructure. In this study, a deep insight into the diffraction characteristics of acoustic fields near noise barriers of various geometries and surface conditions was achieved using numerical simulations. A T-shaped passive noise barrier with acoustically soft upper surfaces was demonstrated to outperform other candidates in a middle- or high-frequency range. Based on attributes of the acoustic field diffracted by T-shaped barriers, an active control strategy was developed to revamp the T-shaped barrier, in which a filtered minimax algorithm was established to drive the secondary sound sources. This algorithm resulted in more uniformly distributed residual sound fields than a filtered-X least mean square algorithm. Performance of the actively controlled barrier was evaluated at different positions and spacings of secondary sound sources and error sensors, leading to a series of optimal criteria for the design of active noise barriers. A prototype was fabricated and validated experimentally, manifesting particular effectiveness in insulating low-frequency noise, supplementing well the capacity of a passive T-shaped barrier which is effective in the middle- or high-frequency range.
doi_str_mv	10.1121/1.4817887
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subjects	Acoustics - instrumentation Algorithms Computer Simulation Equipment Design Least-Squares Analysis Materials Testing Models, Theoretical Motion Noise, Transportation - prevention & control Numerical Analysis, Computer-Assisted Pressure Reproducibility of Results Surface Properties
title	Modeling, analysis, and validation of an active T-shaped noise barrier
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