On the polarization-dependent signatures of atmospheric and oceanic features in radar images of the ocean surface

遥感信息 Pub Date : 1997-08-03 DOI:10.1109/IGARSS.1997.606437

R. Romeiser

引用次数: 5

Abstract

Multi-polarization radar images of the ocean surface from various experimental campaigns suggest that the backscattered signal is more sensitive to wind field variations at vertical (VV) than at horizontal (HH) polarization. On the other hand, radar signatures of oceanic features like internal waves or underwater bottom topography are often better visible at HH. In this paper, a possible theoretical explanation for these phenomena is discussed. It is shown that polarization-dependent radar signatures are qualitatively consistent with predictions of a composite surface scattering model, where the ratio between modulation depths at HH and VV is determined by the intensity variations of ocean waves in different wave-number ranges. Using a simple scenario of wind and current variations, it is demonstrated that a pair of radar images with dominant oceanic and atmospheric signatures at HH and VV, respectively, can be basically obtained from the model.

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海洋表面雷达图像中大气和海洋特征的偏振相关特征

来自不同实验活动的海洋表面多极化雷达图像表明，背向散射信号对垂直(VV)方向的风场变化比水平(HH)方向的风场变化更敏感。另一方面，海洋特征的雷达特征，如内波或水下底部地形，通常在HH下更清晰可见。本文对这些现象的可能的理论解释进行了探讨。结果表明，极化相关的雷达特征与复合表面散射模型的预测在质量上是一致的，其中HH和VV调制深度之间的比率由不同波数范围内海浪的强度变化决定。在简单的风和流变化情景下，该模式基本可以获得分别在HH和VV具有主要海洋和大气特征的一对雷达图像。

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

遥感信息

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3984

期刊介绍： Remote Sensing Information is a bimonthly academic journal supervised by the Ministry of Natural Resources of the People's Republic of China and sponsored by China Academy of Surveying and Mapping Science. Since its inception in 1986, it has been one of the authoritative journals in the field of remote sensing in China.In 2014, it was recognised as one of the first batch of national academic journals, and was awarded the honours of Core Journals of China Science Citation Database, Chinese Core Journals, and Core Journals of Science and Technology of China. The journal won the Excellence Award (First Prize) of the National Excellent Surveying, Mapping and Geographic Information Journal Award in 2011 and 2017 respectively. Remote Sensing Information is dedicated to reporting the cutting-edge theoretical and applied results of remote sensing science and technology, promoting academic exchanges at home and abroad, and promoting the application of remote sensing science and technology and industrial development. The journal adheres to the principles of openness, fairness and professionalism, abides by the anonymous review system of peer experts, and has good social credibility. The main columns include Review, Theoretical Research, Innovative Applications, Special Reports, International News, Famous Experts' Forum, Geographic National Condition Monitoring, etc., covering various fields such as surveying and mapping, forestry, agriculture, geology, meteorology, ocean, environment, national defence and so on. Remote Sensing Information aims to provide a high-level academic exchange platform for experts and scholars in the field of remote sensing at home and abroad, to enhance academic influence, and to play a role in promoting and supporting the protection of natural resources, green technology innovation, and the construction of ecological civilisation.