[1] CLOUDE S R. Polarisation: Applications in Remote Sensing[M]. Oxford: Oxford University Press, 2009. [2] LEE J S, GRUNES M R, De GRANDI G. Polarimetric SAR Speckle Filtering and Its Implication for Classification[J]. IEEE Transactions on Geoscience and Remote Sensing, 1999, 37(5): 2363-2373. [3] VASILE G, TROUVE E, CIUC M, et al. Intensity-driven-adaptive-neighborhood Technique for PolSAR Parameters Estimation[C]//Proceedings of the 2005 IEEE International Geoscience and Remote Sensing Symposium. Seoul: IEEE, 2005, 8: 5509-5512. [4] VASILE G, TROUVE E, LEE J S, et al. Intensity-driven Adaptive-neighborhood Technique for Polarimetric and Interferometric SAR Parameters Estimation[J]. IEEE Transactions on Geoscience and Remote Sensing, 2006, 44(6): 1609-1621. [5] VASILE G, OVARLEZ J, PASCZL F, et al. Coherency Matrix Estimation of Heterogeneous Clutter in High-Resolution Polarimetric SAR Images[J]. IEEE Transactions on Geoscience and Remote Sensing, 2010, 48(4): 1809-1826. [6] LEE J S, CLOUDE S R, PAPATHANASSIOU K P, et al. Speckle Filtering and Coherence Estimation of Polarimetric SAR Interferometry Data for Forest Applications[J]. IEEE Transactions on Geoscience and Remote Sensing, 2003, 41(10): 2254-2263. [7] LI Ying, ZHENG Yongguo. An Improved Enhanced Lee Filter Algorithm[J]. Computer Applications and Software, 2012, 29(7): 243-245. (李莹, 郑永果. 一种改进的增强Lee滤波算法[J]. 计算机应用与软件, 2012, 29(7): 243-245.) [8] OUYANG Qundong, WU Zhaocong, PENG Jiangui. An Improved Method of Lee Refined Polarized Filter[J]. Science of Surveying and Mapping, 2011, 36(5): 136-138. (欧阳群东, 巫兆聪, 彭检贵. 一种改进的精制极化Lee滤波算法[J]. 测绘科学, 2011, 36(5): 136-138.) [9] LANG Fengkai, YANG Jie, LI Deren. An Adaptive Enhanced Lee Speckle Filter for Polarimetric SAR Image[J]. Acta Geodaetica et Cartographica Sinica, 2014, 43(7): 690-697. (郎丰铠, 杨杰, 李德仁. 极化SAR图像自适应增强Lee滤波算法[J]. 测绘学报, 2014, 43(7): 690-697.) [10] FLYNN T, TABB M, CARANDE R. Coherence Region Shape Extraction for Vegetation Parameter Estimation in Polarimetric SAR Interferometry[C]//Proceedings of the 2002 IEEE International Geoscience and Remote Sensing Symposium, 2002. Toronto, Ontario: IEEE, 2002, 5: 2596-2598. [11] TABB M, ORREY J, FLYNN T, et al. Phase Diversity: A Decomposition for Vegetation Parameter Estimation Using Polarimetric SAR Interferometry[C]//Proceedings of EUSAR. Cologne: [s.n.], 2002, 2: 721-724. [12] LEE J S, POTTIER E. Polarimetric Radar Imaging: From Basic to Applications[M]. New York: CRC Press, 2009. [13] JIANG Yong, ZHANG Xiaoling, SHI Jun. Speckle Reduction for Polarimetric SAR Images by Improved Lee Filter[J]. Journal of University of Electronic Science and Technology of China, 2009, 38(1): 5-8. (江勇, 张晓玲, 师君. 极化SAR改进Lee滤波相干斑抑制研究[J]. 电子科技大学学报, 2009, 38(1): 5-8.) [14] YANG Dahai, MA Debao. Refined Polarimetric SAR Speckle Lee Filtering Algorithm Based on Relativity of Polarization Vector[J]. Journal of Information Engineering University, 2011, 11(6): 737-740. (杨大海, 马德宝. 基于极化矢量相似系数的极化Lee滤波改进算法[J]. 信息工程大学学报, 2011, 11(6): 737-740.) [15] CLOUDE S R, PAPATHANASSIOU K P. Polarimetric SAR Interferometry[J]. IEEE Transactions on Geoscience and Remote Sensing, 1998, 36(5): 1551-1565. [16] LOPEZ-MARTINEZ C, FABREGAS X. Model-based Polarimetric SAR Speckle Filter[J]. IEEE Transactions on Geoscience and Remote Sensing, 2008, 46(11): 3894-3907. [17] TAN Lulu, CHEN Bing, YANG Ruliang. Improved Three-stage Algorithm of Tree Height Retrieval with PolInSAR Data[J]. Journal of System Simulation, 2010, 22(4): 996-999. (谈璐璐, 陈兵, 杨汝良. 利用PolInSAR数据反演植被高度的改进三阶段算法[J]. 系统仿真学报, 2010, 22(4): 996-999.) [18] NEUMANN M, REIGBER A, FERRO-FAMIL L. PolInSAR Coherence Set Theory and Application[C]//Proceedings of the European Conference on Synthetic Aperture Radar. Dresden: [s.n.], 2006. [19] YANG Jie, ZHAO Lingli, SHI Lei, et al. Interpretation of Oblique Buildings Based on Optimal Polarimetric Coherence Coefficient[J]. Acta Geodaetica et Cartographica Sinica, 2012, 41(4): 577-583. (杨杰, 赵伶俐, 史磊, 等. 基于最优极化相干系数的倾斜建筑物解译研究[J]. 测绘学报, 2012, 41(4): 577-583. [20] GU Jing, YANG Jian, ZHANG Hao, et al. Speckle Filtering in Polarimetric SAR Data Based on the Subspace Decomposition[J]. IEEE Transactions on Geoscience and Remote Sensing, 2004, 42(8): 1635-1641. |