地球同步轨道圆迹SAR研究

doi:10.12000/JR15062

摘要
图/表
参考文献(0)
相关文章 (15)

全文: PDF (37269 KB) [HTML]( )
输出: BibTeX | EndNote (RIS) 背景资料

摘要

该文介绍了地球同步轨道圆迹合成孔径雷达(Geosynchronous Circular SAR, Geo-CSAR)的概念，通过设计同步轨道的轨道参数，可以形成近圆的卫星相对地球轨迹，使SAR载荷的凝视成像模式成为可能，实现对地的大面积定点连续观测以及真3维信息获取；研究分析了Geo-CSAR的成像能力，指出其在瞬时覆盖度、连续观测范围及3维精确定位方面，具有现有低轨星载SAR无法比拟的优势，是实现全球不间断覆盖的有效途径之一，在军事侦察、灾害监测方面具有重要的应用前景。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章

关键词 ：对地观测, 地球同步轨道, 合成孔径雷达, 圆迹SAR, 大面积定点连续观测, 3维成像

Abstract：

The concept of Geosynchronous Circular SAR (Geo-CSAR) is introduced in this paper. With the design of the geosynchronous orbit parameters, a near-circular satellite sub-track could be formed to enable the staring imaging mode, which supports the advanced applications for wide-field and 3-D information acquisition under long-term consistent observation. This paper also analyzes Geo-CSAR's imaging formation capabilities, and concludes its attractive advantages over low-earth orbit spaceborne SAR in terms of instantaneous coverage, consistent observing area, 3-D positioning accuracy and etc.. Encouraging expectations for Geo-CSAR thus could be positively predicted in military investigation and disaster monitoring management applications.

Key words： Earth observation Geosynchronous orbit Synthetic Aperture Radar (SAR) Circular SAR (CSAR) Wide-field consistent observation 3-D imaging

收稿日期: 2015-05-22 出版日期: 2015-06-30

TN95

基金资助:

探索研究项目和国家自然科学基金(61431018, 61201404)资助课题

通讯作者: 洪文 whong@mail.ie.ac.cn E-mail: whong@mail.ie.ac.cn

作者简介: 洪文(1968-),女,1997年毕业于北京航空航天大学,获工学博士学位.研究经历包括北京航空航天大学电子工程系副教授、德国宇航院雷达与微波技术所客座研究员等,现为中国科学院电子学研究所研究员,博士生导师,院优秀教师获得者,中科院“百人计划”.主要研究方向为极化/极化干涉合成孔径雷达数据处理及应用、3维微波成像新概念新体制新方法等. E-mail: whong@mail.ie.ac.cn;林赟(1983-),女,浙江人,2011年获得中国科学院电子学研究所博士学位,中国科学院电子学研究所助理研究员.研究方向为合成孔径雷达3维成像技术、多角度SAR成像基础理论与方法研究. E-mail: ylin@mail.ie.ac.cn;谭维贤(1981-),男,2009年毕业于中国科学院电子学研究所,获得工学博士学位,现为中国科学院电子学研究所副研究员.主要研究方向为微波3维成像、合成孔径雷达3维成像体制与算法等. E-mail: wxtan@mail.ie.ac.cn 王彦平(1976-),男,2004年毕业于中国科学院电子学研究所,获得工学博士学位,现为中国科学院电子学研究所研究员.主要研究方向为极化干涉SAR数据处理、合成孔径雷达3维成像体制等. E-mail: ypwang@mail.ie.ac.cn 向茂生(1964-),男,中国科学院电子学研究所研究员,博士生导师,研究方向为干涉合成孔径雷达系统技术和方法. E-mail: xms@mail.ie.ac.cn

引用本文:

洪文, 林赟, 谭维贤, 王彦平, 向茂生. 地球同步轨道圆迹SAR研究[J]. 雷达学报, 2015, 4(3): 241-253. Hong Wen, Lin Yun, Tan Wei-xian, Wang Yan-ping, Xiang Mao-sheng. Study on Geosynchronous Circular SAR. JOURNAL OF RADARS, 2015, 4(3): 241-253.

链接本文:

http://radars.ie.ac.cn/CN/10.12000/JR15062 或 http://radars.ie.ac.cn/CN/Y2015/V4/I3/241

[1]	Battagliere M L. The COSMO-SkyMed experience overview[OL]. https://wiki.services.eoportal.org/.../COSMOSkyMed_ Experience_WORKSHOP_ESRIN_Oct_2012_ FinalVersion.ppt.
[2]	Zhu X and Bamler R. Very High resolution spaceborne SAR tomography in urban environment[J]. IEEE Transactions on Geoscience and Remote Sensing, 2010, 48(12): 4296-4308.
[3]	洪文. 圆迹SAR成像技术研究进展[J]. 雷达学报, 2012, 1(2): 124-135. Hong Wen. Progress in circular SAR imaging technique[J]. Journal of Radars, 2012, 1(2): 124-135.
[4]	Palm S,Oriot H M,and Cantalloube H M. Radargrammetric DEM extraction over urban area using circular SAR imagery[J]. IEEE Transactions on Geoscience and Remote Sensing, 2012, 50(11): 4720-4725.
[5]	Frölind P O, Gustavsson A, Lundberg M, et al.. Circularaperture VHF-band synthetic aperture radar for detection of vehicles in forest concealment[J]. IEEE Transactions on Geoscience and Remote Sensing, 2012, 50(4): 1329-1339.
[6]	Ponce O, Prats P, Marc R C, et al.. Processing of circular SAR trajectories with fast factorized back-projection[C]. International Geoscience and Remote Sensing Symposium, Vancouver, 2011: 3692-3695.
[7]	Lin Y, Hong W, Tan W, et al.. Airborne circular SAR imaging: results at P-band[C]. International Geoscience and Remote Sensing Symposium, Munich, 2012: 5594-5597.
[8]	Tomiyasu K. Synthetic aperture radar in geosynchronous orbit[C]. Antennas and Propagation Symposium, Maryland, 1978: 42-45.
[9]	Tomiyasu K and Pacelli J L. Synthetic aperture radar imaging from an inclined geosynchronous orbit[J]. IEEE Transactions on Geoscience and Remote Sensing, 1983, 21(3): 324-329.
[10]	NASA, JPL. Global earthquake satellite system: a 20-year plan to enable earthquake prediction[OL]. http://solidearth. jpl.nasa.gov/GESS/3123_GESS_Rep_2003.pdf, 2003.
[11]	Madsen S N, Edelstein W, Didomenico L D, et al.. A geosynchronous synthetic aperture radar: for tectonic mapping, disaster management and measurements of vegetation and soil moisture[C]. International Geoscience and Remote Sensing Symposium, Sydney, 2001: 447-449.
[12]	朱敏慧. 地球同步轨道星载合成孔径雷达概念研究[J]. 现代雷达, 2011, 33(5): 1-4. Zhu Min-hui. A study on the concept of geosynchronous synthetic aperture radar[J]. Modern Radar, 2011, 33(5): 1-4.
[13]	毛二可, 曾涛, 胡程, 等. 基于地球同步轨道合成孔径雷达的双基地探测系统: 概念及潜力[J]. 信号处理, 2013, 29(3): 285-292. Mao Er-ke, Zeng Tao, Hu Cheng, et al.. Bistatic detection based on geosynchronous SAR: concept and potentiality[J]. Journal of Signal Processing, 2013, 29(3): 285-292.
[14]	孔德亮. 基于大面积定点区域连续观测的雷达新概念新技术研究[D]. [Ph.D. dissertation], 中国科学院电子学研究所, 2006: 1-33. Kong De-liang. New radar architecture and technology based on incessant fixed region observation[D]. [Ph.D. dissertation], Institute of Electronics of Chinese Academy of Sciences, 2006: 1-33.
[15]	袁媛, 袁昊, 雷玲, 等. 一种同步轨道星机双基SAR 成像方法[J]. 雷达科学与技术, 2007, 5(2): 128-132. Yuan Yuan, Yuan Hao, Lei Ling, et al.. An imaging method of GEO spaceborne-airborne bistatic SAR[J]. Radar Science and Technology, 2007, 5(2): 128-132.
[16]	黄丽佳. 中高轨道 S A R 成像算法研究[D]. [P h. D. dissertation], 中国科学院电子学研究所, 2011: 1-12. Huang Li-jia. Imaging algorithm for medium-earth-orbit SAR[D]. [Ph.D. dissertation], Institute of Electronics, Chinese Academy of Sciences, 2011: 1-12.
[17]	郑经波. 地球同步轨道合成孔径雷达系统分析及工作模式研究[D]. [Ph.D. dissertation], 中国科学院电子学研究所, 2011: 1-9. Zheng Jing-bo. Study on system analysis and working modes for geosynchronous earth orbit synthetic aperture radar[D]. [Ph.D. dissertation], Institute of Electronics, Chinese Academy of Sciences, 2011: 1-9.
[18]	Long T, Dong X, Hu C, et al.. A new method of zero-Doppler centroid control in GEO SAR[J]. IEEE Geoscience and Remote Sensing Letters, 2011, 8(3): 511-515.
[19]	Hu C, Liu Z, and Long T. An improved CS algorithm based on the curved trajectory in geosynchronous SAR[J]. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2012, 5(3): 795-808.
[20]	史洪印, 周荫清, 陈杰. 同步轨道星机双基地3通道SAR 地面运动目标指示算法[J]. 电子与信息学报, 2 0 0 9, 3 1 ( 8 ) : 1881-1885. Shi Hong-yin, Zhou Yin-qing, and Chen Jie. An algorithm of GEO spaceborne-Airborne bistatic three-Channel SAR ground moving target indication[J]. Journal of Electronics & Information Technology, 2009, 31(8): 1881-1885.
[21]	李军, 邢孟道, 李亚超, 等. 同步轨道SAR 参数分析及成像方法[J]. 系统工程与电子技术, 2010, 32(5): 931-936. Li Jun, Xing Meng-dao, Li Ya-chao, et al.. Parametric analysis and imaging method of geosynchronous SAR[J]. Systems Engineering and Electronics, 2010, 32(5): 931-936.
[22]	Bao M, Xing M, and Li Y C. Chirp scaling algorithm for GEO SAR based on fourth-order range equation[J]. Electronic Letters, 2012, 48(1): 41-42.
[23]	Soop E M. Handbook of Geostationary Orbits[M]. Sweden, The Netherlands: Eur. Space Agency Sci. Tech, 1994: 3-34.
[24]	林赟. 圆迹合成孔径雷达成像算法研究[D]. [P h. D. dissertation], 中国科学院电子学研究所, 2011: 1-15. Lin Yun. Study on algorithms for circular Synthetic
[25]	Aperture Radar imaging[D]. [Ph.D. dissertation], Institute of Electronics, Chinese Academy of Sciences, 2011: 1-15. Lin Y, Hong W, Tan W, et al.. Extension of range migration algorithm to squint circular SAR imaging[J]. IEEE Geoscience and Remote Sensing Letters, 2011, 8(4): 651-655.
[26]	寇蕾蕾. 地球同步轨道圆迹 SAR 干涉机理研究[D]. [Ph.D. dissertation], 中国科学院电子学研究所, 2011: 1-23. Kou Lei-lei. Study on interferometric mechanism of geosynchronous circular SAR[D]. [Ph.D. dissertation], Institute of Electronics, Chinese Academy of Sciences, 2011: 1-23.
[27]	Kou L, Wang X, Xiang M, et al. Interferometric estimation of three-dimensional surface deformation using geosynchronous circular SAR[J]. IEEE Transactions on Aerospace and Electronic Systems, 2012, 48(2): 1619-1635.
[28]	刘启. 地球同步轨道圆迹SAR成像方法研究[D]. [Ph.D. dissertation], 中国科学院电子学研究所, 2012: 1-18. Liu Qi. Investigation on the imaging methods for geosynchronous circular SAR[D]. [Ph.D. dissertation], Institute of Electronics, Chinese Academy of Sciences, 2012: 1-18.
[29]	Liu Q, Hong W, Tan W, et al.. An improved polar format algorithm with performance analysis for geosynchronous circular SAR 2D imaging[J]. Progress in Electromagnetics Research, 2011, 119: 155-170.