随机稀疏传声器阵列声全息定位移动声源的方法

Liang Bing, Yang Diange, Lian Xiaomin
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引用次数: 1

摘要

在用传声器阵列定位运动声源时,随机稀疏阵列可以得到与完整阵列相同的结果,但传声器数量要少得多;这样,测量系统就可以既便宜又不那么复杂。传统的随机稀疏阵列声源识别技术通常是基于波束形成原理,其低频分辨率不是很好。提出了一种随机稀疏传声器阵列的声全息方法;利用稀疏阵列采集的声压数据构建不完全全息平面,利用基于相位共轭波聚焦原理的声全息方法计算辐射平面的声压分布。仿真结果表明,随机稀疏阵列具有较低的侧瓣和较好的识别性能。实验结果表明,该方法能够准确定位运动中的汽车声源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An acoustic holography method with random sparse microphone array to locate moving sound sources
To locate the moving sound sources with microphone arrays, with the random sparse arrays we could get equal results but much less microphones than the complete arrays; then the measuring system could be inexpensive and less complicated. The traditional technique to identify sound source with random sparse array is usually based on the beamforming principle, its resolution at low frequencies is not very good. An acoustic holography method with random sparse microphone array is proposed; an incomplete holography plane is constructed with the sound pressure data collected by the sparse array, then the sound pressure distribution of the radiating plane is computed with the acoustic holography method based on the principle of phase-conjugate waves focusing. The simulation indicates that the results of random sparse array have lower side lobes and better identifying performance than those of regular array with equal microphones. The experiment result shows that the sound sources in a moving car can be located correctly with this method.
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