Radar Remote Sensing

Remote Compositional Analysis Pub Date : 2005-04-15 DOI:10.1002/0471654507.EME379

J. V. Zyl, Yunjin Kim

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Abstract

In this article, we present the basic principles of how remote sensing radars work. These include SARs (synthetic aperture radar), scatterometers, altimeters, sounders, cloud radars, and rain radars. Radars are active sensors; they provide their own illumination and therefore can be operated during day or night. An additional advantage of particularly lower-frequency radars is their ability to penetrate clouds, rain, tree canopies, and even dry soil surfaces. We start the discussion by defining the basic concepts of resolution, the radar equation, signal fading, and the geometric distortions associated with the radar imaging geometry. We also include a description of advanced SAR techniques (polarimetry, interferometry, and polarimetric interferometry) and their applications. We complete the chapter by briefly examining nonimaging radars such as scatterometers, altimeters, radar sounders, and meteorological radars. An extensive list of references is provided for each radar for readers who need an in-depth description of a particular radar. Keywords: remote sensing; radar; SAR; polarimetric SAR; interferometric SAR; polarimetric interferometry; scatterometer; altimeter; sounder; cloud radar; rain radar

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雷达遥感

在本文中，我们介绍了遥感雷达工作的基本原理。这些包括sar(合成孔径雷达)、散射计、高度计、测深仪、云雷达和雨雷达。雷达是主动传感器;他们提供自己的照明，因此可以在白天或晚上操作。特别是低频雷达的另一个优势是它们能够穿透云层、雨水、树冠，甚至干燥的土壤表面。我们通过定义分辨率、雷达方程、信号衰落和与雷达成像几何相关的几何畸变的基本概念开始讨论。我们还介绍了先进的SAR技术(偏振法、干涉法和偏振干涉法)及其应用。我们通过简单地检查非成像雷达，如散射计、高度计、雷达测深仪和气象雷达来完成本章。为需要深入描述特定雷达的读者提供了每个雷达的广泛参考列表。关键词:遥感;雷达;特别行政区;偏振特区;干涉SAR;偏振干涉法;散射仪;高度计;测深仪;云雷达;雨雷达

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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