Sound source localization model of cube microphone array

Minzong Li, Simeng Wang, Zhongxu Tian
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引用次数: 0

Abstract

This paper conducts in-depth research on the sound source localization technology of the microphone array and designs a sound source localization system based on the cube microphone array. Firstly, the sound source localization model is established using the cube microphone array combined with the spherical near-field acoustic holography. Secondly, the numerical and sound source localization simulations are carried out using the spherical wave. Finally, the simulation and experiment of sound source location for sound at 100, 1000, and 2000 Hz are carried out using the model. Both simulation and experimental results show that when the sound source frequency is 100 and 1000 Hz, the location of the sound source can be accurately located by using the sound source localization model of a cube microphone array, and the sound field reconstruction error is low. When the sound source frequency is 2000 Hz, the location of the sound source cannot be located, and the sound field reconstruction error is very high, which will cause the misjudgment of the sound source location.

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立方体麦克风阵列的声源定位模型
本文对麦克风阵列声源定位技术进行了深入研究,并设计了基于立方体麦克风阵列的声源定位系统。首先,利用立方体传声器阵列结合球面近场声全息技术建立了声源定位模型。其次,利用球面波进行数值模拟和声源定位模拟。最后,利用该模型对 100、1000 和 2000 Hz 的声音进行了声源定位模拟和实验。模拟和实验结果表明,当声源频率为 100 和 1000 Hz 时,使用立方体传声器阵列声源定位模型可以准确定位声源位置,且声场重建误差较小。当声源频率为 2000 Hz 时,声源位置无法定位,声场重建误差很大,会造成声源位置的误判。
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