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极化干涉合成孔径雷达图像信息提取技术的进展及未来

邹斌 张腊梅 孙德明 王伟

邹斌, 张腊梅, 孙德明, 王伟. 极化干涉合成孔径雷达图像信息提取技术的进展及未来[J]. 电子与信息学报, 2006, 28(10): 1979-1984.
引用本文: 邹斌, 张腊梅, 孙德明, 王伟. 极化干涉合成孔径雷达图像信息提取技术的进展及未来[J]. 电子与信息学报, 2006, 28(10): 1979-1984.
Zou Bin, Zhang La-mei, Sun De-ming, Wang Wei. Information Extraction Using Polarimetric Interferometric SAR Data: Present and Future[J]. Journal of Electronics and Information Technology, 2006, 28(10): 1979-1984.
Citation: Zou Bin, Zhang La-mei, Sun De-ming, Wang Wei. Information Extraction Using Polarimetric Interferometric SAR Data: Present and Future[J]. Journal of Electronics and Information Technology, 2006, 28(10): 1979-1984.

极化干涉合成孔径雷达图像信息提取技术的进展及未来

Information Extraction Using Polarimetric Interferometric SAR Data: Present and Future

  • 摘要: 作为雷达成像遥感一个崭新的研究领域,上世纪90年代末出现的极化干涉合成孔径雷达信息提取技术已日益引起广泛的关注,在未来若干年内必将成为遥感领域的一个趋势和研究热点。该文对目前国内外该技术的进展现状及其应用领域进行了全面的阐述和分析,并在此基础上对该技术的未来发展进行了预测。
  • [1] 邹斌. 现代合成孔径雷达系统及应用概要. 哈尔滨工业大学内部报告,2004年10月.[2]Cloude S R, Papathanassiou K P. Polarimetric SAR interferometry[J].IEEE Trans. on Geoscience and Remote Sensing.1998, 36(5):1551-[3]郭华东, 李新武等. 极化干涉雷达遥感机制及应用. 遥感学报, 2002, 6(6): 401.[4]Treuhaft R N, Madsen S N, Moghaddam M, Van Zyl J J. Vegetation characteristics and surface topography from interferometric radar[J].Radio Sciences.1996, 31(7):1449-[5]Treuhaft R N. Vertical structure of vegetated land surfaces from interferometric and polarimetric radar. Radio Sciences, 2000, 35(1): 41.177.[6]Papathanassiou K P, Reiger A, Cloude S R. Vegetation and ground parameter estimation using polarimetric interferometry. Part I: the role of polarisation. Part II: parameter inversion and optimal polarisations. Proc. of the CEOS SAR Workshop, Toulouse, France, 26-29 Oct, 1999: 347358. .[7]Papathanassiou K P, Cloude S R. Single-Baseline polarimetric SAR interferometry. IEEE Trans. on Geoscience and Remote Sensing, 2001, 39(11): 23522363. .[8]Isola M, Cloude S R. Forest height mapping using space-borne polarimetric SAR interferometry[J].Proc. of IGARSS01, 9-13 July.2001, 3:1095-[9]Cloude S R, Papathanassiou K P. A 3-Stage inversion process for polarimetric SAR interferometry. European Conf. On Synthetic Aperture SAR, EUSAR 2002, Cologne, Germany, 2002: 279.282.[10]Cloude S R, Papathanassiou K P. Three-stage inversion process for polarimetric SAR interferometry. IEE Proc. Radar Sonar Navigation, 2003,150(3): 125134. .[11]Brandfass M.[J].Hofmann C, Mura J C, Papathanassiou K P. Polarimetric SAR interferometry as applied to fully polarimetric rain forest data. Proc. of IGARSS01, Vol.3, 9-13 July.2001,:-[12]Brandfass M, Hofmann C, Mura J C, Moreira J, Papathanassiou K P. Parameter estimation of rain forest vegetation via polarimetric radar interferometric data. Proc. of SPIE on SAR Image Analysis, Modeling and Techniques IV, 2002, 4543:169.179.[13]Brandfass M. Generation of bold earth digital elevation models as applied to polarimetric SAR interferometry[J].Proc. of IGRASS02, 24-28 June.2002, 3:1014-[14]Sagues L, Fabregas X, Broquetas A. Extraction of vegetation structure and surface parameters using polarimetric and interferometric SAR techniques. Proc. of IGRASS 2000, Honolulu, HI, USA, July 2002:141143. .[15]Hajnsek I, Papathanassiou K P, Moreia A, Cloude S R. Surface parameter estimation using interferometric and polarimetric SAR[J].Proc. of IGRASS02, 24-28 June.2002,1:420422-[16]Flynn T, Tabb M, Carande R. Direction estimation of vegetation parameters from covariance data in polarimetric SAR interferometry[J].Proc. of IGRASS02, 24-28 June.2002, 3:19081910-[17]Tabb M, Flynn T, Carande R. Full maximum likelihood inversion of Pol-In-SAR scattering models. Proc. of IGRASS2004, Sep. 2004, Alaska, USA:12321235. .[18]Treuhaft R N, Cloude S R. The structure of oriented vegetation from polarimetric interferometry. IEEE Trans. on Geoscience and Remote Sensing, 1999, 37(6): 26202624. .[19]Hajnsek I, Cloude S R. Pol-In-SAR for agricultural vegetation parameter estimation. Proc. of IGRASS2004, Sep 2004, Alaska, USA:1224.1227.[20]Ballester Berman J David, Lopez Sanchez Juan M, Guasch J F. Retrieval of height and topography of corn field by polarimetric SAR interferometry. Proc. of IGRASS2004, Sep. 2004, Alaska, USA:1228.1231.[21]Mette T, Papathanassiou K P, Hajnsek I, Zimmermann R. Forest biomass estimation using polarimetric SAR interferometry[J].Proc. of IGRASS02, 24-28 June.2002, 2:817819-[22]Mette T, Papathanassiou K P, Hajnsek I, Zimmermann R. Forest biomass estimation using polarimetric SAR interferometry. Proc. of Pol-In-SAR 2003, Roma, May 2003.[23]Papathanassiou K P, Mette T, Hajnsek I. Model based forest height estimation from single baseline Pol-InSAR data: The fichtelgebirge test case. Proc. of Pol-In-SAR 2003, Roma, May 2003.[24]Mette T, Papathanassiou K P, Hajnsek I. Biomass estimation from polarimetric SAR interferometry over heterogeneous forest terrain. Proc. of IGRASS2004, Sep. 2004, Alaska, USA: 511514. .[25]Hellmann M, Cloude S R, Papathanassiou K P. Classification using polarimetric and interferometric SAR-data. Proc. of IGRASS97, Aug. 1997: 14111413. .[26]Prakoso K U. Tropical forest mapping using multiband polarimetric interferometric SAR data. Proc. of Pol-In-SAR 2003, Roma, May 2003.[27]Ferro-Famil L, Pottier E, Lee J S. Unsupervised classification and analysis of natural scenes from polarimetric interferometric SAR data. Proc. of IGRASS2001, July 2002: 27152717. .[28]Ferro-Famil L, Pottier E, Lee J S. Classification and interpretation of polarimetric interferometric SAR data[J].Proc. of IGRASS02, 24-28 June.2002, 1:635637-[29]Cloude S R, Corr D G, Willams M L. Target detection beneath foliage using polarimetric synthetic aperture radar interferometry. Waves in Random Media. 2004, 14: S393S414. .[30]Yamada H, Yamaguchi Y, Rodriguez E, Kim Y, Boerner W M. Polarimetric SAR interferometry for forest canopy analysis byusing the super-resolution method. Proc of IGRASS, 2001, 9-13July, 2001, 3: 11011103. .[31]Yamada H, et al.. Polarimetric SAR interferometry for forest analysis based on the esprit algorithm. IEICE Trans. Electron., 2001, E84-C(12): 1917.1924.[32]Guillaso S, Ferro-Famil L, Reigber A, Pottier E. Polarimetric interferometric SAR data analysis based on ESPRIT/MUSIC methods. Proc. of Pol-In-SAR 2003, Roma, May 2003.Guillaso S.[J].Ferro-Famil L, Reigber A, Pottier E. Urban area analysis based on ESPRIT/MUSIC methods using polarimetric interferometric SAR. Proc. of 2nd GRSS/ISPRS joint Workshop on Data Fusion and Remote Sensing over Urban Areas Technical University of Berlin, May 22-2.2003,:-Guillaso S, Ferro-Famil L, Reigber A, Pottier E. Analysis of built-up areas from polarimetric interferometric SAR images. Proc. of IGRASS03, Toulouse, France, 2003:1727.1729.[33]Guillaso S.[J].Ferro-Famil L, Reigber A, Pottier E. Building characterisation using polarimetric interferometric SAR data. Proc. of EUSAR0.2004,:-[34]杨震, 杨汝良. 极化合成孔径雷达干涉技术. 遥感技术与应用, 2001, 16(3): 139.143.[35]陈小英, 洪峻. 极化SAR干涉测量模拟研究. 遥感学报, 2002,6(6): 475.480.[36]Yang Z, Yang R L. Application of polarimetric synthetic aperture radar interferometry for land cover classification. Proc. of IEEE on Radar Conference. 22-25 April, 2002: 459463. .[37]Li X, Guo H. Generation and error analysis of DEM using spaceborne polarimetric SAR interferometry data[J].Proc. of IGRASS02, 24-28 June.2002, 5:27052707-[38]李新武, 郭华东等. 航天飞机极化干涉雷达数据反演地表植被参数. 遥感学报, 2002, 6(6): 424429. .[39]Zhang H, Wang C, Liu Z. Polarimetric SAR interferometry for vegetable vertical structure parameters extraction[J].Proc. of IGRASS02, 24-28 June.2002, 5:26112613-[40]Li X, Guo H, Li Z, Wang L. Inversion of vegetation height using SIR-C dual frequency polarimetric SAR interferometry data. Proc. of IGRASS2004, Sep. 2004, Alaska, USA: 31323135. .[41]李新武, 郭华东等. 极化干涉SAR数据地表土地类型分类. 遥感学报, 2002, 6(6): 507.510.[42]杨震, 杨汝良. SAR图像的极化干涉非监督Wishart分类方法和实验研究. 电子与信息学报, 2004, 26(5): 752759. .[43]董贵威, 杨健, 彭应宁, 王超, 张红. 极化SAR遥感中森林特征探测. 清华大学学报, 2003, 43(7): 953956.
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    出版历程
    • 收稿日期:  2004-01-24
    • 修回日期:  2005-07-08
    • 刊出日期:  2006-10-19

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