Ocean Current Profiling With A Shipboard Doppler Acoustic Backscatter System

Proceedings OCEANS '83 Pub Date : 1900-01-01 DOI:10.1109/OCEANS.1983.1152131

D. Bitterman, D. Wilson

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引用次数: 4

Abstract

An acoustic Doppler backscatter current profiler and associated data logging equipment were recently installed aboard the NOAA research vessel RESEARCHER. The system transmits 115 KHz acoustic pulses from a hull mounted three beam transducer and measures the doppler frequency shift of the backscattered signal as the pulses propagate down through the water column. The motion of the water is then computed from the Doppler frequency shifts to yield a profile of the relative currents beneath the ship. The system has been operated extensively in the Straits of Florida and the eastern equatorial Pacific Ocean in conjunction with other current profiling instruments.Maximum effective depth penetration of the acoustic profiler was approximately 250 meters and good agreement was obtained with the other profilers over this depth range. Although the conversion from ship-referenced to absolute current profiles is hampered due to the lack of reliable, continuous navigation coverage over wide areas of the ocean, the data to date has proven to be scientifically interesting and useful. The referencing problem should be alleviated in the future with the implementation of newer satellite navigation systems.

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用船载多普勒声学后向散射系统分析洋流

声波多普勒反向散射电流剖面仪和相关的数据记录设备最近安装在NOAA的研究船上。该系统从安装在船体上的三波束换能器传输115 KHz的声脉冲，并测量脉冲通过水柱向下传播时后向散射信号的多普勒频移。然后根据多普勒频移计算水的运动，得出船下相对水流的轮廓。该系统已在佛罗里达海峡和东赤道太平洋与其他洋流剖面仪器一起广泛使用。声波剖面仪的最大有效穿透深度约为250米，与其他剖面仪在该深度范围内的一致性很好。虽然由于缺乏可靠的、持续的海洋导航覆盖范围，从船舶参考到绝对洋流剖面的转换受到阻碍，但迄今为止的数据已被证明在科学上是有趣和有用的。参考问题应在未来随着较新的卫星导航系统的实施而得到缓解。

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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Proceedings OCEANS '83

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