利用InSAR技术监测矿区地表形变
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摘要
介绍了InSAR技术在矿区地表形变监测中的应用现状及进展,分析了D-InSAR技术相比于传统测量手段的优势,并指出其在矿区地表形变监测中的不足。针对传统D-InSAR技术的局限性,重点讨论了短基线(SBAS)、永久散射体(PS)和角反射器(CR)等高级差分干涉技术,并结合矿区沉降监测实例,分析了其特点与应用现状,讨论了现有研究中仍存在的问题。高级InSAR技术和高分辨率SAR影像的结合将是矿区地表形变监测的发展趋势。
The application status and research progress of InSAR technique in the monitoring of the ground surface deformation in mining area were introduced.Firstly,the advantages of D-InSAR technique were analyzed by comparing to the traditional surveying methods.Then,the limitations of D-InSAR in the mining deformation detection were described.According to the limitations of the traditional D-InSAR method,the advanced InSAR technique,e.g.,small baseline subset(SBAS),permanent scatterer(PS) and corner reflector(CR) techniques were discussed.Using real mining subsidence monitoring as example,the characteristics and application status of those advanced InSAR techniques were studied,and the key problems still existing in the current research were summarized.Finally,it is indicated that the development trend of InSAR monitoring surface deformation in mining area is the combination of advanced InSAR and high-resolution SAR images.
The application status and research progress of InSAR technique in the monitoring of the ground surface deformation in mining area were introduced.Firstly,the advantages of D-InSAR technique were analyzed by comparing to the traditional surveying methods.Then,the limitations of D-InSAR in the mining deformation detection were described.According to the limitations of the traditional D-InSAR method,the advanced InSAR technique,e.g.,small baseline subset(SBAS),permanent scatterer(PS) and corner reflector(CR) techniques were discussed.Using real mining subsidence monitoring as example,the characteristics and application status of those advanced InSAR techniques were studied,and the key problems still existing in the current research were summarized.Finally,it is indicated that the development trend of InSAR monitoring surface deformation in mining area is the combination of advanced InSAR and high-resolution SAR images.
引文
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[4]李陶.重复轨道星载SAR差分干涉监测地表形变研究[D].武汉:武汉大学,2004.LI Tao.Study on surface deformation monitoring by repeat pass spaceborne SAR differential interferograms[D].Wuhan:Wuhan University,2004.
[5]ZEBKER H A,VILLASENOR J.Decorrelation in interferometric radar echoes[J].IEEE Transactions on Geoscience and Remote Sensing,1992,30(5):950-959.
[6]LIU G X,LI J,XU Z.Surface deformation associated with the 2008 Ms 8.0 Wenchuan earthquake from ALOS L-band SAR interferometry[J].International Journal of Applied Earth Observation and Geoinformation,2011,12:496-505.
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[8]张红,王超,吴涛,汤益先.基于相干目标的D-InSAR方法研究[M].北京:科学出版社,2009:4-11.ZHANG Hong,WANG Chao,WU Tao,TANG Yi-xian.Research of coherent target interferometry[M].Beijing:Science Press,2009:4-11.
[9]CLOSA J.The influence of orbit precision in the quality of ERS SAR interferometric data[EB/OL].[1999].http://earthl.esrin.esa.it/.
[10]SCHARROO R,VISSER P N,METS J G.Precise orbit determination and gravity field improvement for the ERS satellites[J].Journal of Geophysical Research,1998,103:8113-8127.
[11]MURAKAMI M,TOBITA M,FUJIWARA S,SAITO T,MASASARU H.Coseismic crustal deformations of the 1994 Northridge,California,earthquake detected by interferometric JERS 1 synthetic aperture radar[J].Journal of Geophysical Research,1996,101:8605-8614.
[12]DING X L,LI Z W,ZHU J J,HUANG C.Atmospheric effects on InSAR measurements and their mitigation[J].Sensors,2008,8(9):5426-5448.
[13]HANSSEN R H.Radar interferometry:Data interpretation and error analysis[M].Netherlands:Kluwer Academic Publishers,2001:72-74.
[14]GOLDSTEIN R M,WERNER C L.Radar interferogram filtering for geophysical applications[J].Geophysical Research Letters,1998,25(21):4035-4038.
[15]LI Z W,DING X L,HUANG C,ZHU J J,CHEN Y L.Improved filtering parameter determination for the goldstein radar interferogram filter[J].ISPRS Journal of Photogrammetry and Remote Sensing,2008,63:621-634.
[16]LEE J S,PAPATHANASSIOU K P,AINSWORTH T L,GRUNES M R,REIGBER A.A new techniques for noise filtering of SAR interferogram phase images[J].IEEE Transactions on Geoscience and Remote Sensing,1998,36(5):1456-1465.
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[18]CHEN C W,ZEBKER H A.Two-dimensional phase unwrapping with use of statistical models for cost functions in nonlinear optimization[J].Journal of the Optical Society of America,2001,18:338-351.
[19]王桂杰,谢谟文,邱骋,江崎哲郎.D-InSAR技术在大范围滑坡监测中的应用[J].岩土力学,2010,31(4):1337-1344.WANG Gui-jie,XIE Mo-wen,QIU Cheng,ESAKI T.Application of D-InSAR technique to landslide monitoring[J].Rock and Soil Mechanics,2010,31(4):1337-1344.
[20]CARNEC C,MASSONNET D,KING C.Two examples of the use of SAR interferometry on displacement fields of small spatial extent[J].Geophysical Research Letters,1996,23(4):3579-3582.
[21]CARNEC C,DELACOURT C.Three years of mining subsidence monitored by SAR Interferometry near Gardanne France[J].Journal of Applied Geophysics,2000,43:43-54.
[22]RAUCOULES D,MAISONS C,CAMEC C,MOUELIC S L,KING C,et al.Monitoring of slow ground deformation by ERS Radar Iinterferometry on the Vauvert Salt Mine(France)—Comparison with ground-based measurement[J].Remote Sensing of Environment,2003,88(4):468-478.
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[24]GE L L,CHANG H C,RIZOS C.Mine subsidence monitoring using multi-source satellite SAR images[J].Photogrammetric Engineering and Remote Sensing,2007,73(3):259-266.
[25]吴立新,高均海,葛大庆,廖明生.工矿区地表沉陷D-InSAR监测试验研究[J].东北大学学报:自然科学版,2005,26(8):778-782.WU Li-xin,GAO Jun-hai,GE Da-qing,LIAO Ming-sheng.Experimental study on surface subsidence monitoring with D-InSAR in mining area[J].Journal of Northeastern University:Natrual Science Edition,2005,26(8):778-782.
[26]董玉森,GE Lin-lin,CHANG Hsing-chun,张志.基于差分雷达干涉测量的矿区地面沉降监测研究[J].武汉大学学报:信息科学版,2007,32(10):888-892.DONG Yu-sen,GE Lin-lin,CHANG Hsing-chun,ZHANG Zhi.Mine subsidence monitoring by differential InSAR[J].Geomatics and Information Science of Wuhan University,2007,32(10):888-892.
[27]刘国林,张连蓬,成枢,江涛.合成孔径雷达干涉测量与全球定位系统数据融合监测矿区地表沉降的可行性分析[J].测绘通报,2005,11:10-13.LIU Guo-lin,ZHANG Lian-peng,CHENG Shu,JIANG Tao.Feasibility analysis of monitoring mining surface substance using InSAR/GPS data fusion[J].Bulletin of Surveying and Mapping,2005,11:10-13.
[28]宁树正,万余庆,孙顺新.煤矿区沉降与遥感监测方法探讨[J].中国煤炭地质,2008,20(1):10-12.NING Shu-zheng,WAN Yu-qing,SUN Shun-xin.A discussion of coal mining area subsidence and remote sensing monitoring[J].Coal Geology of China,2008,20(1):10-12.
[29]李晶晶,郭增长.基于D-InSAR技术的煤矿区开采沉陷监测[J].河南理工大学学报:自然科学版,2006,25(4):306-309.LI Jing-jing,GUO Zeng-zhang.Basing on the technology of D-InSAR in mining subsidence of coal mine area[J].Journal of Henan Polytechnic University:Natural Science,2006,25(4):306-309.
[30]YANG C S,ZHANG Q,ZHAO C Y,JI L Y.Monitoring mine collapse by D-InSAR[J].Minning Science and Technology,2010,20(5):696-700.
[31]候建国,杨成生,王亚男,王宏宇,等.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.HOU Jian-guo,YANG Cheng-sheng,WANG Ya-nan,WANG Hong-yu.Monitoring of subsidence induced by coal mining:a research based on differential SAR interferometry[J].Journal of Natural Disasters,2009,18(6):71-75.
[32]尹宏杰.基于InSAR的矿区地表形变监测研究[D].长沙:中南大学,2009.YIN Hong-jie.Ground subsidence monitoring in mining area using InSAR[D].Changsha:Central South University,2009.
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