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遥感技术与应用  2015, Vol. 30 Issue (2): 370-375    DOI: 10.11873/j.issn.1004-0323.2015.2.0370
遥感应用     
基于小基线InSAR技术监测九台营城矿区2012年地表形变
朱叶飞1,2,朱锦旗1,2,詹雅婷1,崔艳梅1
(1.江苏省地质调查研究院,江苏 南京210018;
2.地裂缝地质灾害重点实验室,江苏 南京210018)
Monitoring Yingcheng Mine Surface Deformation in Jiutai City based on Small Baseline InSAR Technology
Zhu Yefei1,2,Zhu Jinqi1,2,Zhan Yating1,Cui Yanmei1
(1.Jiangsu Province Institute of Geological Survey,Nanjing 210049,China;
2.Key Laboratory of ground fissure disaster,Nanjing 210049,China)
 全文: PDF(11523 KB)  
摘要:

通过采用小基线InSAR技术,将离散的DInSAR观测连接起来,获取吉林省九台营城矿区线性地表形变量,通过去除大气延迟相位计算非线性形变量,进而获取时间上连续的沉降场。经实地调查验证,InSAR计算结果较好地吻合了矿区开采范围和地表建筑物破坏情况。最后分析了营城矿区2012年沉降的分布和地表形变随时间的变化情况,揭示矿区沉降漏斗的分布、发展和演化规律。

关键词: InSAR小基线集九台矿区沉降地表形变    
Abstract:

The Yingcheng mining linear surface deformation is obtained in Jiutai City,Jilin Province by using of small baseline InSAR technology to link discrete DInSAR observations.Then the nonlinear deformation is retrieved by removing atmospheric delay phase ,and temporally continuous subsidence field is obtained.Verified by field survey,InSAR results have well consistent with the scope of mining and the destruction of surface buildings.The distribution of the mining subsidence and the changes of surface deformation over time in 2012 is emphatically analyzed,which revealed the distribution of mining subsidence funnel,development and evolution.

Key words: InSAR;Small baseline subset    Jiutai    Mining subsidence    Surface deformation
收稿日期: 2013-10-25 出版日期: 2015-05-08
:  P 225.1  
基金资助:

全国地表形变遥感地质调查(中国地质调查局基-2011-01-06-01) 项目。

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引用本文:

朱叶飞,朱锦旗,詹雅婷,崔艳梅. 基于小基线InSAR技术监测九台营城矿区2012年地表形变[J]. 遥感技术与应用, 2015, 30(2): 370-375.

Zhu Yefei,Zhu Jinqi,Zhan Yating,Cui Yanmei. Monitoring Yingcheng Mine Surface Deformation in Jiutai City based on Small Baseline InSAR Technology. Remote Sensing Technology and Application, 2015, 30(2): 370-375.

链接本文:

http://www.rsta.ac.cn/CN/10.11873/j.issn.1004-0323.2015.2.0370        http://www.rsta.ac.cn/CN/Y2015/V30/I2/370

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