合成孔径雷达数据减灾应用潜力研究综述
详细信息 本馆镜像全文    |  推荐本文 | | 获取馆网全文
摘要
合成孔径雷达SAR(Synthetic Aperture Radar)技术是一种主动的对地观测技术,已在国内外减灾领域得到了广泛的应用。环境减灾HJ-1CSAR卫星是我国第一颗民用SAR卫星,也是我国第一颗用于减灾救灾领域的SAR卫星,已于2012年11月19日发射成功。在HJ-1CSAR卫星发射前,从SAR技术特点出发,分别分析了单极化、多极化、干涉、极化干涉SAR数据在灾害预警监测评估领域的应用现状及潜力。对于推动利用SAR技术进行灾害监测预警业务体系向更深层面发展,推动高级空间技术在减灾领域的应用,以及推动我国在灾害监测预警领域的SAR卫星星座的建设具有重要意义。
Synthetic Aperture Radar(SAR)is an active earth observation technology,has been widely used in disaster reduction field at home and abroad."Environment and disaster monitoring and prediction small satellite constellation" of HJ-1C is the first civil SAR satellite,and is the first satellite used for disaster reduction and relief field in china,has been lauched successfully on November 19,2012.Before launching,from the SAR technical characteristics,this paper analyzes the application situation and potentiality of SAR data divided into single-polarization SAR,multi-polarization SAR,Interferometric SAR and Polarimetric SAR Interferometry.This study has important significance in promoting deeper development of disaster monitoring and warning business system by SAR technique,driving application of high space technique and pushing forward SAR satellite constellation construction of disaster monitoring and warning field in China.
引文
[1]Cumming I G,Wang F H,Hong Wen,et al.Digital Processingof Synthetic Aperture Radar Data:Algorithms and Implemnt-ation[M].Beijing:Publishing House of Electronics Industry,2007.[Cumming I G,Wang F H,著,洪文,等译.合成孔径雷达成像—算法与实现[M].北京:电子工业出版社,2007.]
    [2]Zhang Junrong,Wang Liwei,Zhang Dehai.The Microwave Di-electric Constant of Canopy and Soil[J].Remote SensingTechnology and Application,1995,10(3):40-50.[张俊荣,王丽巍,张德海.植被和土壤的微波介电常数[J].遥感技术与应用,1995,10(3):40-50.]
    [3]Gao Feng,Wang Jiemin,Sun Chengquan,et al.Advances inStudy on Microwave Remote Sensing of Soil Moisture[J].Re-mote Sensing Technology and Application,2001,16(2):97-102.[高峰,王介民,孙成权,等.微波遥感土壤湿度研究进展[J].遥感技术与应用,2001,16(2):97-102.]
    [4]Zhong Ruofei,Guo Huadong,Wang Weimin.Overview of SoilMoisture Retrieval from Passive Microwave Remote Sensing[J].Remote Sensing Technology and Application,2005,20(1):49-57.[钟若飞,郭华东,王为民.被动微波遥感反演土壤水分进展研究[J].遥感技术与应用,2005,20(1):49-57.]
    [5]Dong Yanfang,Sun Guoqing,Pang Yong.Rice Detection basedon Envisat ASAR[J].Science in China(Series D),2005,35(7):682-689.[董彦芳,孙国清,庞勇.基于Envisat ASAR数据的水稻检测[J].中国科学(D辑),2005,35(7):682-689.
    [6]Dong Y F,Sun G Q,Pang Y.Monitoring of Ricecroop UsingEnvisat ASAR Data[J].Science in China(Series D):EarthSciences,2006,49(7):755-763.
    [7]Zhou Peng,Ding Jianli,Gao Tingting.A Study on Soil Mois-ture Retrieval by C-band Multi-polarization SAR[J].XinjiangAgricultural Sciences,2010,47(7):1416-1420.[周鹏,丁建丽,高婷婷.C波段多极化SAR反演土壤水分研究[J].新疆农业科学,2010,47(7):1416-1420.]
    [8]Zhang Tangtang,Wen Jun,Rogier Vander V,et al.Soil Mois-ture Retrieval based on Envisat/ASAR Data[J].Plateau Mete-orology,2008,27(2):279-285.[张堂堂,文军,Rogier Vander V,等.基于Envisat/ASAR资料的土壤湿度反演方法[J].高原气象,2008,27(2):279-285.]
    [9]Chen Quan,Li Zhen,Wang Lei.An Analysis of Applying S-band SAR of HJ-1Cto Soil Moisture Change Retrieval[J].Remote Sensing For Land&Resources,2005,64(2):12-15.[陈权,李震,王磊.环境小卫星S波段SAR监测土壤水分变化应用分析[J].国土资源遥感,2005,64(2):12-15.]
    [10]Wei Xiaolan,Li Zhen,Chen Quan.The Simulating Analysisand Validation of Soil Moisture Retrieval Using S-band Radar[J].Geo-information Science,2008,10(1):97-108.[魏小兰,李震,陈权.S波段雷达数据反演土壤水分的模拟分析和验证[J].地球信息科学,2008,10(1):97-108.]
    [11]Shao Yun,Guo Huadong,Fan Xiangtao,et al.Studies on RiceBackscatter Signatures in Time Domain and Its Applications[J].Journal of Remote Sensing,2001,5(5):340-345.[邵芸,郭华东,范湘涛,等.水稻时域散射特征分析及其应用研究[J].遥感学报,2001,5(5):340-345.]
    [12]Shao Yun,Liao Jingjuan,Fan Xiangtao,et al.Analysis on RiceBackscatter Signatures in Time Domain:Comparison betweenRadarsat-SAR Observation and Simulated Model Results[J].Journal of Remote Sensing,2002,6(6):440-450.[邵芸,廖静娟,范湘涛,等.水稻时域后向散射特性分析:雷达卫星观测与模型模拟结果对比[J].遥感学报,2002,6(6):440-450.]
    [13]Li Yan,Peng Shaolin,Liao Qifang,et al.Rice Yield Estima-tion in Regional Scale by Using Radarsat SNB SAR Images[J].Advance in Earth Sciences,2003,18(1):109-115.[李岩,彭少麟,廖其芳,等.Radarsat SNB SAR数据在大面积水稻估产中的应用研究[J].地球科学进展,2003,18(1):109-115.]
    [14]Tan Zheng,Liu Xiangnan,Zhang Xiaoqian.Simulation of Dy-namics of Crop Biomass by Assimulation SAR Data into CropGrowth Model[J].Chinese Agricultural Science Bulletin,2011,27(27):161-167.[谭正,刘湘南,张晓倩.作物生长模型同化SAR数据模拟作物生物量时域变化特征[J].中国农学通报,2011,27(27):161-167.]
    [15]Chen Jinsong,Shao Yun,Li Zhen.Neural Networks Classifi-cation of Quad-polarization SAR Data based on Target De-composition[J].Journal of Image and Graphics,2004,9(5):552-556.[陈劲松,邵芸,李震.基于目标分解理论的全极化SAR图像神经网络分类方法[J].中国图象图形学报,2004,9(5):552-556.]
    [16]Wu Zhaocong,Ouyang Qundong,Hu Zhongwen.PolarimetricSAR Image Classification Using Watershed-transformationand Support Vector Machine[J].Geomatics and InformationScience of Wuhan University,2012,37(1):7-10.[巫兆聪,欧阳群东,胡忠文.应用分水岭变换与支持向量机的极化SAR图像分类[J].武汉大学学报(信息科学版),2012,37(1):7-10.]
    [17]Li Zhen,Chen Quan,Ren Xin.Modeling Envisat-1Dual-Po-larized Data and Its Applications[J].Journal of Remote Sens-ing,2006,10(5):777-782.[李震,陈权,任鑫.Envisat-1双极化雷达数据建模及应用[J].遥感学报,2006,10(5):777-782.]
    [18]Yang Shenbin,Li Bingbai,Shen Shuanghe.Rice Monitoringbased on Envisat ASAR Data[J].Jiangsu Journal of Agricul-ture Sciences,2008,24(1):33-38.[杨沈斌,李秉柏,申双和.基于Envisat ASAR数据的水稻遥感监测[J].江苏农业学报,2008,24(1):33-38.]
    [19]Bao Yansong,Liu Liangyun,Wang Jihua,et al.Estimation ofSoil Water Content and Wheat Coverage with ASAR Image[J].Journal of Remote Sensing,2006,10(2):263-271.[鲍艳松,刘良云,王纪华,等.利用ASAR图像监测土壤含水量小麦覆盖度[J].遥感学报,2006,10(2):263-271.]
    [20]Zhu Xiaoling,Wang Xiaoqin,Ling Feilong.Envisat ASARApplication in Paddy Discrimination[J].Journal of Xiamen U-niversity of Technology,2007,15(3):18-21.[朱晓铃,汪小钦,凌飞龙.Envisat ASAR在水稻识别中的应用[J].厦门理工学院学报,2007,15(3):18-21.]
    [21]Wang Xiaoqin,Wang Qinmin,Shi Xiaoming,et al.Rice FieldMapping and Monitoring Using ASAR Data based on Princi-pal Component Analysis[J].Transactions of the Chinese Soci-ety of Agricultural Engineering,2008,24(10):122-126.[汪小钦,王钦敏,史晓明.基于主成分变换的ASAR数据水稻种植面积提取[J].农业工程学报,2008,24(10):122-126.]
    [22]Li Zhen,Zeng Qunzhu.The Method Study of Snow-coverMapping with SAR Image[J].Remote Sensing of Environ-ment,1996,11(3):200-205.[李震,曾群柱.合成孔径雷达影象提取雪盖信息研究[J].环境遥感,1996,11(3):200-205.]
    [23]Li Zhen,Zeng Qunzhu,Sun Wenxin.A Study of Snow-coverMapping with SAR Image in the Tianshan Mountains[J].Journal of Glaciology and Geocrylogy,1996,18(4):366-372.[李震,曾群柱,孙文新.天山地区SAR数据雪盖制图研究[J].冰川冻土,1996,18(4):366-372.]
    [24]Rango A.Snow Hydrology Processes and Remote Sensing[J].Hydrological Processes,1993,7:121-138.
    [25]Caves R,Turpin U,Nagler T,et al.The Role of Earth Obser-vation in Snowmelt Runoff Monitoring from High LatitudeBasins:SAR Aspects[C]//IEEE International Geoscience andRemote Sensing Symposium,Seattle,WA,1998:1858-1859.
    [26]Nagler T,Rott H.Retrieval of Wet Snow by Means of Multi-temporal SAR Data[J].IEEE Transactions on Geosciencesand Remote Sensing,2000,38(2):754-765.
    [27]Baumgartner M F,Apfl G.Towards an Integrated GeographicAnalysis System with Remote Sensing,GIS and ConsecutiveModeling for Snow Cover Monitoring[J].International Jour-nal of Remote Sensing,1994,15(7):1507-1517.
    [28]Li Zhen,Guo Huadong,Shi Jiancheng.Polarimetric SAR bySpace Shuttle Inverse Density of Dry Snow[J].Science Bulle-tin,2001,46(7):594-597.[李震,郭华东,施建成.航天飞机极化雷达数据反演干雪密度[J].科学通报,2001,46(7):594-597.]
    [29]Ainsworth T L,Schuler D L,Lee J S.Polarimetric SAR Char-acterization of Man-made Structures in Urban Areas UsingNormalized Circular-pol Correlation Coefficient[J].RemoteSensing of Environment,2008,112:2876-2885.
    [30]Guo H D,Wang X Y,Li X W.Yushu Earthquake Synergic A-nalysis Using Multimodal SAR Datasets[J].Chinese ScienceBulletin,2010,55(31):3499-3503.
    [31]Zebker H A,Goldstein R M.Topographic Mapping from In-terferometric Synthetic Aperture Radar Observation[J].Jour-nal of Geophysical Research,1986,91(85):4993-4999.
    [32]Zhang Wei.Airborne Dual-antenna InSARs InterferometricCalibration Method Research[D].Beijing:Institute of Elec-tronics,Chinese Academy of Sciences,2009.[张薇.机载双天线干涉SAR定标方法研究[D].北京:中国科学院电子学研究所,2009.]
    [33]Ferretti A,Prati C,Rocca F.Analysis of Permanent Scatters inSAR Interferometry[C]//IEEE International Geoscience and Re-mote Sensing Symposium,Hawaii,USA,2000,2:761-763.
    [34]Li Xinwu,Guo Huadong,Li Zhen,et al.Coherence SignaturesAnalysis and Classification of Land Cover of SAR Interferom-etry[J].High Technology Letters,2002,(5):1-4.[李新武,郭华东,李震,等.干涉雷达地表相干特性分析及土地类型分类[J].高技术通讯,2002,(5):1-4.]
    [35]Massonnet D,Rossi M,Carmona C,et al.The DisplacementField of the Landers Earthquake Mapped by Radar Interfer-ometry[J].Nature,1992,364:138-142.
    [36]Remi M,Rignot E.Flow of Glacier Moreno,Argentina,fromRepeat-pass SIR Image Comparison of the Phase CorrelationMethod with Radar Interferometry[J].Journal of Glacial,1999,45(149):93-100.
    [37]Li Zhen,Zhou Jianmin,Xie Chou.Extracting Cosesimic De-formation of the Wenchuan Earthquake with Spaceborne D-InSAR[J].Journal of Natural Disasters,2011,20(1):105-109.[李震,周建民,谢酬.星载SAR差分干涉测量提取汶川地震同震形变场[J].自然灾害学报,2011,20(1):105-109.]
    [38]Guo Huadong,Liu Liangyun,Fan Xiangtao.Study of EarthObservation for Disaster Reduction in Wenchuan and YushuEarthquakes[J].Geological Journal of China Universities,2011,17(1):1-10.[郭华东,刘良云,范湘涛.对地观测技术用于汶川和玉树地震灾害的研究[J].高校地质学报,2011,17(1):1-10.]
    [39]Goldstein R M,Zebker H A.Interferometric Radar Measure-ment of Ocean Surface Currents[J].Nature,1987,328(20):707-709.
    [40]Zhang Jianlong,Singhroy V H,Li Xiaochun.Application ofDifferential Interferometric SAR to the Jiaju Landslide in Si-chuan,China[J].Journal of Chengdu University of Technolo-gy(Science&Technology Edition),2010,37(5):554-557.[张建龙,Singhroy V H,李晓春.差分干涉测量技术在四川甲居滑坡监测中应用研究[J].成都理工大学学报(自然科学版),2010,37(5):554-557.]
    [41]Hou Jianguo,Yang Chengsheng,Wang Yanan.Monitoring ofSubsidence Induced by Coal Mining:A Research based on Dif-ferential SAR Interferometry[J].Journal of Natural Disas-ters,2009,18(6):71-75.[侯建国,杨成生,王亚男.煤矿开采沉陷监测—基于合成孔径雷达差分干涉测量的研究[J].自然灾害学报,2009,18(6):71-75.]
    [42]Zhou Zhiwei,Yan Ziping,Liu Su.Persistent Scatterers andSmall Baseline SAR Interferometry for City Subsidence Map-ping:A Case Study in Panjin,China[J].Geomatics and Infor-mation Science of Wuhan University,2011,36(8):928-931.[周志伟,鄢子平,刘苏.永久散射体与短基线雷达干涉测量在城市地表形变中的应用[J].武汉大学学报(信息科学版),2011,36(8):928-931.]
    [43]Lin Hui,Chen Fulong,Jiang Liming.Preliminary Research onLarge-scale Man-made Linear Features Deformation Monito-ring Using Multi-baseline Differential SAR Interferometry[J].Journal of Geo-information Science,2010,12(5):718-725.[林珲,陈富龙,江利明.多基线差分雷达干涉测量的大型人工线状地物形变监测[J].地球信息科学学报,2010,12(5):718-725.]
    [44]Zhou Jianmin,Li Zhen,Li Xinwu.Research on Rules of theValley Glacier Motion in Western China based on ALOS/PALSAR Interferometry[J].Acta Geodaetica et Cartographi-ca Sinica,2009,38(4):341-347.[周建民,李震,李新武.基于ALOS/PALSAR雷达干涉数据的中国西部山谷冰川冰流运动规律研究[J].测绘学报,2009,38(4):341-347.]
    [45]Zhou Jianmin,Li Zhen,Xing Qiang.Deriving Glacier BorderInformation based on Analysis of Decorrelation in SAR Inter-ferometry[J].Journal of Glaciology and Geocrylogy,2010,32(1):133-138.[周建民,李震,邢强.基于雷达干涉失相干特性提取冰川边界方法研究[J].冰川冻土,2010,32(1):133-138.]
    [46]Jiang Zongli,Liu Shiyin,Han Haidong.Analyzing MountainGlacier Surface Velocities Using SAR Data[J].Remote Sens-ing Technology and Application,2011,26(6):640-646.[蒋宗立,刘时银,韩海东.基于SAR数据的山地冰川表面运动速度分析[J].遥感技术与应用,2011,26(6):640-646.]
    [47]Guo Huadong,Li Xinwu,Wang Changlin.The Mechanism andRule of Polarimetric SAR Interferometry[J].Journal of Re-mote Sensing,2002,6(6):401-405.[郭华东,李新武,王长林.极化干涉雷达遥感机制及作用[J].遥感学报,2002,6(6):401-405.]
    [48]Papathana ssion K P,Cloude S R.Single-baseline PolarimetricSAR Interferometry[J].IEEE Transactions on Geosciencesand Remote Sensing,2001,39(11):2352-2363.
    [49]Li Tingwei,Huang Haifeng,Liang Diannong.The Polarime-tric InSAR Model and a Novel Method for Parameter Inver-sion of the Three-layer Vegetation[J].Journal of Infrared andMillimeter Waves,2011,30(4):333-338.[李廷伟,黄海风,梁甸农.三层植被极化干涉建模及参数反演新方法研究[J].红外与毫米波学报,2011,30(4):333-338.]
    [50]Brandfass M.Generation of Bald Earth Digital Elevation Mod-els as Applied to Polarimetric SAR Interferometry[C]//IEEEInternational Geoscience and Remote Sensing Symposium,Toronto,Canada,2002.
    [51]Luciano V D,Marcos T E.Assessment of Digital ElevationModels Obtained in Brazilian Amazon based on P and X BandAir-borne Interferometric Data[C]//IEEE International Geo-science and Remote Sensing Symposium,Toronto,Canada,2002.
    [52]Xiong Tao,Yang Jian,Peng Yingning.Approach to Reversionof DEM based on Polarimetric SAR Interferometry[J].Jour-nal of Tsinghua University(Science and Technology),2007,47(7):1170-1173.[熊涛,杨健,彭应宁.基于极化SAR干涉反演DEM的方法[J].清华大学学报(自然科学版),2007,47(7):1170-1173.]

版权所有:© 2023 中国地质图书馆 中国地质调查局地学文献中心