Multifrequency HF radar observations of surface currents: measurements from different systems and environments

MTS/IEEE Oceans 2001. An Ocean Odyssey. Conference Proceedings (IEEE Cat. No.01CH37295) Pub Date : 2001-11-05 DOI:10.1109/OCEANS.2001.968242

J. Vesecky, J. Drake, M. Plume, C. Teague, L. Meadows, Y. Fernandez, K. Davidson, J. Paduan

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引用次数: 3

Abstract

The authors present three aspects of current HF radar research. First, they examine the consistency of measurements by HF ground wave radars with different designs, but operating on the same physical principles. This is done using data from the commercially available SeaSonde (Codar Ocean Systems) and from the Multifrequency Coastal Radar (MCR), which is a research system. Data from the two systems are compared for co-located units at Santa Cruz and Moss Landing CA on Monterey Bay. They conclude that the two systems make current-vector-field measurements that are consistent to an accuracy of better than 10 cm/s and that the data from two such systems can be integrated to form reliable composite current maps. Second, they present results from an air-sea interaction investigation using the MCR systems on Monterey Bay during 1997 and 2000. We show that near surface currents are correlated with the wind with correlation coefficients 0.6 and are rotated 35 to 45/spl deg/ with respect to the wind in the sense of the Ekman spiral. They also show results of near shore observations on Lake Michigan during the EEGLE campaign of 2000. These measurements show the capability of HF radars to operate over fresh water.

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表面电流的多频高频雷达观测:来自不同系统和环境的测量

介绍了目前高频雷达研究的三个方面。首先，他们检查了不同设计但在相同物理原理下工作的高频地波雷达测量结果的一致性。这是使用商用SeaSonde (Codar海洋系统)和多频率海岸雷达(MCR)(这是一个研究系统)的数据完成的。在蒙特雷湾的Santa Cruz和Moss Landing CA，对两个系统的数据进行了比较。他们得出的结论是，这两个系统进行的电流矢量场测量的精度优于10厘米/秒，并且来自两个这样的系统的数据可以集成以形成可靠的复合电流图。其次，他们介绍了1997年和2000年在蒙特利湾使用MCR系统进行海气相互作用调查的结果。我们发现，近地表流与风的相关系数为0.6，并且在埃克曼螺旋的意义上，相对于风旋转了35至45/spl度。他们还展示了2000年EEGLE活动期间对密歇根湖近岸观测的结果。这些测量显示了高频雷达在淡水上工作的能力。

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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MTS/IEEE Oceans 2001. An Ocean Odyssey. Conference Proceedings (IEEE Cat. No.01CH37295)

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