一种改进的时域等效源方法，用于精确模拟室内旁通噪声

IF 1.9 4区工程技术 Q2 ACOUSTICS

Journal of Vibration and Acoustics-Transactions of the Asme Pub Date : 2022-11-08 DOI:10.1115/1.4056195

Ce Liu, Xiao-Zheng Zhang, Yong-Bin Zhang

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引用次数: 1

摘要

采用时域等效源法(TDESM)进行了室内旁通噪声模拟。尽管消除了麦克风阵列技术对专用大型半消声室的要求，但由于存在信号拼接误差和未充分考虑车辆运动引起的多普勒效应，仍然难以获得较高的仿真精度。为了提高PBN的仿真精度，本文开发了TDESM。与之前的TDESM不同，改进的TDESM (I-TDESM)通过叠加一系列运动等效源的贡献来模拟PBN，这可以考虑车辆运动的影响。通过对移动声源的声场计算，可以直接重建接收机处的频宽。通过数值研究和实车试验验证了I-TDESM的可行性。仿真结果表明，I-TDESM能很好地吸收多普勒效应，有效消除信号拼接误差，提高了仿真精度。实车试验结果进一步验证了I-TDESM的有效性。

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An improved time-domain equivalent source method for accurate indoor simulation of pass-by noise

Time-domain equivalent source method (TDESM) has been employed for indoor simulation of pass-by noise (PBN). Despite removing the requirement of dedicated large semi-anechoic chambers for the microphone array technique, it is still difficult to obtain high simulation accuracy due to the existence of signal splicing error and ill-consideration of Doppler effect induced by the vehicle motion. In this paper, the TDESM is developed to improve the simulation accuracy of PBN. Unlike the previous TDESM, the improved TDESM (I-TDESM) models the PBN by superposing the contributions of an array of moving equivalent sources, which can take the influence of vehicle motion into account. The PBN at the receivers can be directly reconstructed via the sound field calculation of moving sources. Numerical studies and real vehicle experiments are implemented to demonstrate the feasibility of the I-TDESM. Simulation results show that the I-TDESM can naturally incorporate the Doppler effect and effectively eliminate the signal splicing error, thus improving the simulation accuracy. The experiment results of real vehicle further validate the I-TDESM.

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来源期刊

Journal of Vibration and Acoustics-Transactions of the Asme 工程技术-工程：机械

CiteScore

4.20

自引率

11.80%

发文量

审稿时长

7 months

期刊介绍： The Journal of Vibration and Acoustics is sponsored jointly by the Design Engineering and the Noise Control and Acoustics Divisions of ASME. The Journal is the premier international venue for publication of original research concerning mechanical vibration and sound. Our mission is to serve researchers and practitioners who seek cutting-edge theories and computational and experimental methods that advance these fields. Our published studies reveal how mechanical vibration and sound impact the design and performance of engineered devices and structures and how to control their negative influences. Vibration of continuous and discrete dynamical systems; Linear and nonlinear vibrations; Random vibrations; Wave propagation; Modal analysis; Mechanical signature analysis; Structural dynamics and control; Vibration energy harvesting; Vibration suppression; Vibration isolation; Passive and active damping; Machinery dynamics; Rotor dynamics; Acoustic emission; Noise control; Machinery noise; Structural acoustics; Fluid-structure interaction; Aeroelasticity; Flow-induced vibration and noise.