Acoustic imaging of geometrically shielded sound sources using tailored Green's functions.

IF 2.1 2区 物理与天体物理 Q2 ACOUSTICS
Lican Wang, Zhenjun Peng, Bao Chen, Zhida Ma, Wangqiao Chen, Peng Zhou, Guocheng Zhou, Siyang Zhong
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引用次数: 0

Abstract

In light of the growing market of urban air mobility, it is crucial to accurately detect the stationary or moving noise sources within the complex scattering environments caused by aircraft structures such as airframes and engines. This study combines conventional and wavelet-based beamforming techniques with an acoustic scattering prediction method to develop an acoustic imaging approach that considers scattering effects. Tailored Green's function is numerically evaluated and used to compute the steering vectors and the specific delayed time used in those beamforming methods. By examining common scenarios where a scatterer is positioned between the source plane and the array plane, it is observed that beamforming in a scattering environment differs from that in free space, leading to improved resolution alongside scattering-induced side lobes. The effectiveness of the developed method is validated through numerical simulations and experimental studies, confirming its improved ability to localize both stationary and rotating sound sources in a shielded environment. This advancement offers effective techniques for acoustic measurement and fault monitoring in the presence of structural scatterers.

使用定制的格林函数对几何屏蔽声源进行声学成像。
鉴于城市空中交通市场的不断增长,在飞机结构(如机身和发动机)造成的复杂散射环境中准确探测静止或移动噪声源至关重要。本研究将传统和基于小波的波束成形技术与声散射预测方法相结合,开发出一种考虑散射效应的声成像方法。对定制的格林函数进行了数值评估,并用于计算这些波束成形方法中使用的转向矢量和特定延迟时间。通过研究散射体位于声源平面和阵列平面之间的常见情况,可以观察到散射环境中的波束成形与自由空间中的波束成形不同,从而在散射引起的侧叶的同时提高了分辨率。通过数值模拟和实验研究,对所开发方法的有效性进行了验证,证实其在屏蔽环境中定位静止声源和旋转声源的能力均有所提高。这一进步为结构散射体存在时的声学测量和故障监测提供了有效技术。
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来源期刊
CiteScore
4.60
自引率
16.70%
发文量
1433
审稿时长
4.7 months
期刊介绍: Since 1929 The Journal of the Acoustical Society of America has been the leading source of theoretical and experimental research results in the broad interdisciplinary study of sound. Subject coverage includes: linear and nonlinear acoustics; aeroacoustics, underwater sound and acoustical oceanography; ultrasonics and quantum acoustics; architectural and structural acoustics and vibration; speech, music and noise; psychology and physiology of hearing; engineering acoustics, transduction; bioacoustics, animal bioacoustics.
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