Estimating Location of Acoustic Sources via Oceanic Internal Gravity Waves' Frequency-Difference Source Localization

IF 1.3 3区 物理与天体物理 Q3 ACOUSTICS Journal of Theoretical and Computational Acoustics Pub Date : 2023-11-01 DOI:10.1142/s2591728523500172
John L. Spiesberger, David J. Geroski, David R. Dowling
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Abstract

Frequency-difference source localization (FDSL) is a relatively new method for locating sources emitting acoustic or electromagnetic waves from recorded data. Estimates of location are produced by matching a nonlinear function of the received data with the same nonlinear function of modeled data. This so-called matched-field approach depends on the accuracy of the modeled field. FDSL exhibits less sensitivity to model errors in some cases of interest. Fluctuations of the speed of sound in the ocean are affected by a wide variety of phenomena and internal gravity waves is one where their spectrum is usually well known. There is no analytical theory for predicting how these fluctuations of sound speed affect the accuracy of FDSL, leaving a numerical evaluation as the alternative for the focus of this paper. Experimental application of FDSL was previously made for an acoustic source of 100[Formula: see text]Hz bandwidth surrounding 250[Formula: see text]Hz for a 129[Formula: see text]km section in the Philippine Sea with data recorded on a long vertical array [Geroski and Dowling, Long-range frequency-difference source localization in the Philippine Sea, J. Acoust. Soc. Am. 146 (2019) 4727–4739.]. The role of internal waves is quantified with a realistic FDSL simulation using models based on the parabolic and ray approximations of the linear acoustic wave equation. The modeled vertical variation of FDSL error is similar to observed while the modeled horizontal error is too small. The complicated software model is automatic but is computationally intensive, with our version needing about 1.5[Formula: see text]mo to compute on a PC with 16 cpu cores.
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利用海洋内重力波频差定位估算声源位置
频差源定位(FDSL)是一种相对较新的定位声波或电磁波源的方法。位置估计是通过将接收数据的非线性函数与建模数据的相同非线性函数相匹配来产生的。这种所谓的匹配场方法依赖于建模场的准确性。在某些情况下,FDSL对模型误差的敏感性较低。海洋中声速的波动受到各种各样现象的影响,而内部重力波的频谱通常是众所周知的。目前还没有分析理论可以预测这些声速波动如何影响FDSL的精度,因此本文的重点是采用数值评估方法。FDSL的实验应用以前是在菲律宾海的一个100[公式:见文]Hz带宽的声源周围250[公式:见文]Hz的129[公式:见文]km剖面上进行的,数据记录在一个长垂直阵列上[Geroski和Dowling,菲律宾海的远程频差源定位,J. Acoust]。Soc。Am. 146(2019) 4727-4739。利用基于线性声波方程的抛物线近似和射线近似的模型,通过真实的FDSL模拟,对内波的作用进行了量化。模拟的FDSL误差垂直变化与观测值基本一致,而模拟的水平误差过小。复杂的软件模型是自动的,但计算量很大,我们的版本在16个cpu内核的PC上计算大约需要1.5个[公式:见文本]。
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来源期刊
Journal of Theoretical and Computational Acoustics
Journal of Theoretical and Computational Acoustics Computer Science-Computer Science Applications
CiteScore
2.90
自引率
42.10%
发文量
26
期刊介绍: The aim of this journal is to provide an international forum for the dissemination of the state-of-the-art information in the field of Computational Acoustics. Topics covered by this journal include research and tutorial contributions in OCEAN ACOUSTICS (a subject of active research in relation with sonar detection and the design of noiseless ships), SEISMO-ACOUSTICS (of concern to earthquake science and engineering, and also to those doing underground prospection like searching for petroleum), AEROACOUSTICS (which includes the analysis of noise created by aircraft), COMPUTATIONAL METHODS, and SUPERCOMPUTING. In addition to the traditional issues and problems in computational methods, the journal also considers theoretical research acoustics papers which lead to large-scale scientific computations.
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