期刊
MEASUREMENT SCIENCE AND TECHNOLOGY
卷 33, 期 12, 页码 -出版社
IOP Publishing Ltd
DOI: 10.1088/1361-6501/ac8ac0
关键词
iterative time reversal; sound source localization; sub-wavelength focusing; low frequency; microphone array
资金
- National Key R&D Program of China [2020YFA0405700]
This paper introduces an iterative time reversal (iterative-TR) processing method for sub-wavelength focusing and improvement of spatial resolution at low frequencies. Numerical simulations and experimental results show that this method can effectively break the diffraction limit and stably determine the positions of multiple sound sources, with good performance.
Microphone array measurements processed with imaging algorithms are commonly performed to identify and quantify noise sources in machines, which is the premise of noise control. However, due to the limitations of the half-wavelength theory, beamforming and time reversal (TR) methods cannot effectively separate multiple low-frequency sources. Although near-field acoustic holography can overcome the diffraction limit, it will encounter an ill-posed problem. To avoid solving the inverse problem, iterative TR processing (iterative-TR) is proposed to obtain the sub-wavelength focusing and improve the spatial resolution at low frequency. The focusing result is corrected step by step with iteration implemented until it reaches the convergence threshold. The propagation matrix between microphones and focusing points is reconstructed by singular-value normalization to ensure the convergence of the iteration. Numerical simulation results show that the iterative-TR method is able to break through the diffraction limit below 1000 Hz within a measurement distance of 0.5 m and reach convergence within 10(5) iterations, which is less than 10 s. The experimental results indoors with significant reverberation show that iterative-TR has the ability to stably give the multiple source positions with 0.11 m spacing even at 100 Hz, that is, the spatial resolution reaches 1/31 wavelength. Detailed analysis shows that the overall performance of iterative-TR outperforms other methods capable of sub-wavelength focusing for signals below 1000 Hz. The identification of two loudspeakers in a car shows the practicality of the proposed method.
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