Vegetation bias removal and underlying topography estimation using Polarimetric SAR Interferometry

机译：利用极化SAR干涉法去除植被偏倚和基础地形

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Vegetation affects the possibility of providing global surface mapping based on Synthetic Aperture Radar Interferometry (InSAR). The estimation of ground topography in vegetated areas is an important task both, for scientific and commercial applications. Therefore, the need of quantifying and removing the vegetation bias arises. In this paper, these two points are investigated with reference to the penetration capabilities of L-band over forests. More in detail, an already developed model-based estimation technique is applied to experimental, fully polarimetric data. This provides a first experimental validation of such a technique and a way to quantify the bias introduced at L-band.

机译：植被影响基于合成孔径雷达干涉测量法（InSAR）提供全局表面映射的可能性。对于科学和商业应用而言，估算植被区的地面地形都是一项重要任务。因此，需要量化和消除植被偏差。在本文中，这两个方面是参考L波段在森林上的穿透能力进行研究的。更详细地，已经开发的基于模型的估计技术被应用于实验性的全极化数据。这提供了这种技术的首次实验验证，以及量化L波段引入的偏置的方法。

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《European Conference on Synthetic Aperture Radar(EUSAR 2004) vol.1; 20040525-27; Ulm(DE)》|2004年|P.263-266|共4页
会议地点 Ulm(DE)
作者
A. Liseno; K.P. Papathanassiou; I. Hajnsek; R. Scheiber; S. Cloude;
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German Aerospace Center (DLR), Microwaves and Radar Institute, P.O. Box 1116, D-82230 Wessling, Germany;

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原文格式 PDF
正文语种 eng
中图分类雷达;
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1. Cramer–Rao Lower Bound Analysis of Vegetation Height Estimation With Random Volume Over Ground Model and Polarimetric SAR Interferometry [J] . Roueff A., Arnaubec A., Dubois-Fernandez P. C., Geoscience and Remote Sensing Letters, IEEE . 2011,第6期

机译：地面高度随机模型和极化SAR干涉法的植被高度估计的Cramer-Rao下界分析
2. Separating the Influence of Vegetation Changes in Polarimetric Differential SAR Interferometry [J] . Virginia Brancato, Irena Hajnsek IEEE Transactions on Geoscience and Remote Sensing. . 2018,第12期

机译：分离植被变化对极化差分SAR干涉测量的影响
3. An improved adaptive decomposition method for forest parameters estimation using polarimetric SAR interferometry image [J] . Nghia Pham Minh, Tan Nguyen Ngoc, An Hung Nguyen European Journal of Remote Sensing . 2019,第1期

机译：使用偏振SAR干涉测量图像改进的森林参数估计的改进自适应分解方法
4. Estimating Vegetation Bias in Polarimetric SAR Interferometry [C] . Madhukar Nomula, Dayalan Kasilingam, Shane Cloude IEEE International Geoscience and Remote Sensing Symposium . 2003

机译：估算偏振SAR干涉测量中的植被偏差
5. The application of maximum entropy density estimation to the classification of short vegetation using multifrequency, polarimetric SAR. [D] . Kouskoulas, Yanni A. 2001

机译：最大熵密度估计在短频植被分类中的应用-多频极化SAR。
6. Assessment of Polarimetric SAR Interferometry for Improving Ship Classification based on Simulated Data [O] . Gerard Margarit, Jordi J. Mallorqui 2008

机译：基于模拟数据的极化SAR干涉测量技术对改善舰船分类的评估
7. Ground topography estimation on over forests considering polarimetric SAR interferometry [O] . López Martínez, Carlos, Alonso González, Alberto, Fabregas Canovas, Francisco Javier, 2010

机译：考虑极化saR干涉测量的森林地形地貌估算
8. Applications of Polarimetric and Interferometric SAR to Environmental Remote Sensing and its Activities: Recent Advances in Extrawideband Polarimetry, Interferometry and Polarimetric Interferometry in Synthetic Aperture Remote Sensing and its Applications [R] . Boerner, W. 2007

机译：极化和干涉saR在环境遥感中的应用及其活动：合成孔径遥感中超宽带偏振测量，干涉测量和极化干涉测量的最新进展及其应用

Vegetation bias removal and underlying topography estimation using Polarimetric SAR Interferometry

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