Prediction of Polarimetric-SAR Field-Orientation Rotation Due to Topographical Slope Variation for Squint Operations

Sabry R.; Vachon P. W.; Cole M.

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Prediction of Polarimetric-SAR Field-Orientation Rotation Due to Topographical Slope Variation for Squint Operations

机译：斜视操作引起的地形坡度变化引起的极化SAR场向旋转的预测

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Local surface slope variations can impact synthetic aperture radar (SAR) imagery by changing the perceived polarization state of the imaged region. Correction of the topography-induced effects results in more accurate evaluation of polarimetric parameters. In this letter, the polarization-orientation angle (POA) correction is analytically estimated for a general polarimetric-SAR scenario operating at a known squint angle based upon a digital elevation model, permitting correction of the topography-induced effects. It can also aid to identify a squint angle that can counteract the effect of a specific POA rotation. Model parameters are demonstrated through a software implementation.

机译：局部表面坡度变化会通过更改成像区域的感知偏振状态来影响合成孔径雷达（SAR）图像。校正由地形引起的影响可以更准确地评估极化参数。在这封信中，基于数字仰角模型，针对在已知斜视角下工作的一般极化SAR方案，分析性地估计了极化取向角（POA）校正，从而可以校正地形引起的影响。它还可以帮助识别可以抵消特定POA旋转效果的斜视角度。模型参数通过软件实现进行演示。

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来源
《Geoscience and Remote Sensing Letters, IEEE》 |2011年第3期|p.570-574|共5页
作者
Sabry R.; Vachon P. W.; Cole M.;
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作者单位

Radar Applications and Space Technologies, Defence R&D Canada–Ottawa, Ottawa, Canada;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Polarimetry; polarization orientation angle (POA); synthetic aperture radar (SAR);

机译：极化法;极化取向角（POA）;合成孔径雷达（SAR）;

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Prediction of Polarimetric-SAR Field-Orientation Rotation Due to Topographical Slope Variation for Squint Operations

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