测绘通报 ›› 2016, Vol. 0 ›› Issue (5): 77-79.doi: 10.13474/j.cnki.11-2246.2016.0160
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YUE Shun1,2, YUE Jianping1, QIU Zhiwei1, WNAG Xueqin1
Received:2015-06-25
Online:2016-05-25
Published:2016-05-31
CLC Number:
YUE Shun, YUE Jianping, QIU Zhiwei, WNAG Xueqin. The Methods of Ground Subsidence Monitoring Based on D-InSAR Technique[J]. 测绘通报, 2016, 0(5): 77-79.
| [1] 岳建平,方露.城市地面沉降监控技术研究进展[J]. 测绘通报,2008(3):1-4. [2] 龙四春,张诗玉,冯涛,等. 公用主影像干涉图加权叠加方法及其在地面沉降监测中的应用[J].测绘学报,2012,41(6):844-850 [3] 侯建国,初禹. 合成孔径雷达差分干涉测量技术在城市地面沉降监测中的应用[J]. 测绘工程,2014(8):40-44. [4] 张洁,胡光道. 基于合成孔径雷达干涉测量技术的地面沉降研究综述[J]. 地质科技情报,2005(3):104-108. [5] 王桂杰,谢谟文,邱骋,等. 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. [6] 舒宁. 雷达影像干涉测量原理[M]. 武汉: 武汉大学出版社, 2003:3-10. [7] 杨成生,瞿伟,季灵运,等. InSAR地理编码处理中高程估算算法的研究[J]. 遥感信息,2007(6):15-17. [8] 陈蓓蓓, 李小娟, 张有全,等. 基于GPS和MERIS数据的InSAR大气延迟改正[C]//2008年测绘科学前沿技术论坛.南京:[s.n.],2008. [9] 母景琴,姚国清. 干涉雷达时间序列分析方法在地面沉降监测中的应用[J]. 国土资源遥感,2007(3):28-30,46. [10] 张振生,孟昆, 谷延群. D-InSAR技术在矿山沉陷和地面沉降监测中的应用[J]. 华北地震科学,2006,24(3):47-51. [11] 何亚倩,郑宇,何晴倩. D-InSAR在矿区开采沉陷监测中应用的探析[J]. 现代矿业,2009(9):76-78. [12] ROGERS A E, INGALLS R P. Venus: Mapping the Surface Reflectivity by Radar Interferometry[J]. Science, 1969,165(3895): 797-799. [13] FARR T G, KOBRICK M. Shuttle Radar Topography Mission Produces a Wealth of Data[J].Amer. Geophys. Union EOS, 2000, 81(48): 583-585. [14] NAKAGAWA H,MURAKAMI M, FUJIWARA S, et al. Land Subsidence of the Northern Kanto Plains Caused by Ground Water Extraction Detected by JERS2 InSAR Interferometry[J]. International Geoscience and RemoteSensing Symposium, 2000, 5: 2233-2235. [15] 周琦,赵文吉. 基于D-InSAR三轨法的北京平原区地表形变监测[J]. 地理空间信息,2013,11(2):146-148,154. [16] 屈春燕,单新建,宋小刚,等. D-InSAR技术应用于汶川地震地表位移场的空间分析[J]. 地震地质,2010,32(2):175-190. |
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