摘要
采用时序InSAR技术对某煤矿2个采煤工作面导致的地面塌陷进行了形变监测,利用干涉效果较好的开挖公路区域实现对采煤塌陷区较好的监测效果。采用2016年6月~12月期间共计8景RADARSAT-2数据,利用小基线集技术处理得出采煤沉陷区地表形变速率及时序累积形变结果,通过与采煤工作面的时间空间分布情况对比,研究得出时序InSAR对采煤塌陷具有较好的指示作用,InSAR监测采煤沉陷区变形结果与采空区的范围对应良好。
In order to study the problem of deformation monitoring in coal mining subsidence area, the deformation monitoring work of a coal mining subsidence area caused by 2 coal mining faces was carried out by InSAR technology. The better monitoring effect of coal mining subsidence area was realized by using the excavation highway area with the better interference effect. With a total of 8RADARSAT-2 image pairs from June 2016 to December 2016, the result of time series cumulative deformation and strain velocities of coal mining subsidence area were obtained by using SBAS technique to deal with data processing. By comparing the results of InSAR processing with the time and space distribution of coal face, can get a conclusion that the InSAR monitoring deformation results of coal mining subsidence area correspond well with the goaf area.
引文
[1]郭颖平,杨进生,赵学亮.时间序列InSAR监测地表形变[J].测绘科学,2017,42(5):5-11.
[2]尹宏杰,朱建军,李志伟,等.基于SBAS的矿区形变监测研究[J].测绘学报,2011,40(1):52-58.
[3]刘晓菲,邓喀中,范洪冬,等. D-InSAR监测老采空区残余变形的试验[J].煤炭学报,2014,39(3):467-472.
[4]邓喀中,王刘宇,范洪冬.基于In SAR技术的老采空区地表沉降监测与分析[J].采矿与安全工程学报,2015,32(6):918-922.
[5]张学东,葛大庆,吴立新,等.基于相干目标短基线In SAR的矿业城市地面沉降监测研究[J].煤炭学报,2012,37(10):1 606-1 611.
[6]邓喀中,姚宁,卢正,等. D-InSAR监测开采沉陷的实验研究[J].金属矿山,2009(12):25-27,120.
[7]张文馨,郭广礼,郭庆彪.基于D-InSAR技术的矿区地表沉陷监测[J].煤炭工程,2017,49(6):122-124.
[8]李楠,王磊,池深深,等.矿区地表沉陷的D-InSAR监测方法[J].金属矿山,2017(10):23-27.