Measurement of ocean currents by seafloor distributed optical-fiber acoustic sensing.

IF 2.1 2区物理与天体物理 Q2 ACOUSTICS

Journal of the Acoustical Society of America Pub Date : 2024-11-01 DOI:10.1121/10.0034237

Jianmin Lin, Runjing He, Qunshu Tang, Lei Zhang, Wen Xu

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Abstract

Ocean current measurements play a crucial role in aiding our understanding of ocean dynamics and circulation systems. Traditional methods, such as drifters and ocean buoys, are sparsely distributed and of limited effectiveness due to the nature of the marine environment and high operating expenses. Distributed acoustic sensing (DAS) is an emerging technology using submarine optical-fiber (OF) cables as dense seismo-acoustic arrays, offering a new perspective for ocean observations. Here, in situ observations of ocean surface gravity waves (OSGWs) and ocean currents by DAS were made along a pre-existing 33.6 km seafloor OF cable. The average current velocity and water depth along the cable were determined from observed OSGW-induced seafloor noise (0.05-0.2 Hz) using ambient-noise interferometry and frequency-domain beamforming. Variations in current velocity were derived at high spatiotemporal resolution using the frequency-domain waveform-stretching method. The inverted current velocity was verified by nearby ocean buoy observations and forecasting results. The observations demonstrate the effectiveness of DAS-instrumented OF cables in monitoring ocean currents.

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通过海底分布式光纤声学传感测量洋流。

洋流测量在帮助我们了解海洋动力学和环流系统方面发挥着至关重要的作用。传统方法，如漂流器和海洋浮标，由于海洋环境的性质和高昂的运行费用，分布稀疏，效果有限。分布式声学传感（DAS）是一项新兴技术，利用海底光纤（OF）电缆作为密集地震声学阵列，为海洋观测提供了新的视角。在这里，利用 DAS，沿已存在的 33.6 千米海底光纤电缆对海洋表面重力波（OSGW）和洋流进行了现场观测。利用环境噪声干涉测量法和频域波束成形法，根据观测到的 OSGW 引起的海底噪声（0.05-0.2 Hz）确定了电缆沿线的平均流速和水深。利用频域波形拉伸法，以高时空分辨率得出了海流速度的变化。附近的海洋浮标观测和预报结果验证了反演的流速。这些观测结果证明了利用 DAS 仪器的 OF 电缆在监测洋流方面的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of the Acoustical Society of America 物理-声学

CiteScore

4.60

自引率

16.70%

发文量

1433

审稿时长

4.7 months

期刊介绍： Since 1929 The Journal of the Acoustical Society of America has been the leading source of theoretical and experimental research results in the broad interdisciplinary study of sound. Subject coverage includes: linear and nonlinear acoustics; aeroacoustics, underwater sound and acoustical oceanography; ultrasonics and quantum acoustics; architectural and structural acoustics and vibration; speech, music and noise; psychology and physiology of hearing; engineering acoustics, transduction; bioacoustics, animal bioacoustics.