基于不同频率场振荡的水下多频源运动参数估计

2022 IEEE International Conference on Signal Processing, Communications and Computing (ICSPCC) Pub Date : 2022-10-25 DOI:10.1109/ICSPCC55723.2022.9984435

Zhezhen Xu, Hui Li, Kunde Yang, Peilin Li

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引用次数: 0

摘要

提出了一种深水水下多声源运动参数估计算法。利用直接路径和表面反射路径相互干扰引起的不同频率点的声场振荡来估计震源的初始距离、速度和深度。该算法首先通过将参考频率的场时间序列与其他频率的重采样场时间序列进行匹配来估计源的初始距离和速度。然后，根据估计的初始距离和速度，将时域压力场映射到接收角的正弦域中，利用基于图像理论的改进傅里叶变换方法直接获得震源深度。利用Bellhop声学工具箱进行了数值模拟，验证了该算法的有效性。

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Motion parameters estimation of an underwater multitonal source by using field oscillation at different frequencies in deep water

This paper presents a motion parameter estimation algorithm for an underwater multitonal source in deep water. The acoustic field oscillation at different frequency points, caused by the interference between the direct and surface-reflected paths, are utilized to estimate the source initial range, velocity, and depth. The proposed algorithm first estimates the source initial range and velocity by matching the field time series at a reference frequency with the resampled ones at other frequencies. Then, based on the estimated initial range and velocity, the pressure fields in the time domain can be mapped into the sine domain of the receiving angle so that the source depth can be directly obtained by using a modified Fourier transform method on the basis of image theory. The effectiveness of the proposed algorithm is demonstrated via numerical simulations by using the Bellhop acoustic toolbox.

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来源期刊

2022 IEEE International Conference on Signal Processing, Communications and Computing (ICSPCC)

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