WANG Lei, JIANG Chuang, ZHANG Xianni, LI Nan, ZHA Jianfeng. Monitoring Method of Surface Subsidence Induced by Inclined Coal Seam Mining Based on Single Line of Sight D-InSAR[J]. Geomatics and Information Science of Wuhan University, 2019, 44(6): 814-820. DOI: 10.13203/j.whugis20170300
Citation: WANG Lei, JIANG Chuang, ZHANG Xianni, LI Nan, ZHA Jianfeng. Monitoring Method of Surface Subsidence Induced by Inclined Coal Seam Mining Based on Single Line of Sight D-InSAR[J]. Geomatics and Information Science of Wuhan University, 2019, 44(6): 814-820. DOI: 10.13203/j.whugis20170300

Monitoring Method of Surface Subsidence Induced by Inclined Coal Seam Mining Based on Single Line of Sight D-InSAR

  • The theory and method of mining subsidence monitoring based on D-InSAR(differential interferometric synthetic aperture radar) technology is a hot topic in the current field of mine deformation monitoring. At present, three-dimensional monitoring model of mining subsidence has been constructed successfully by some scholars through integrating single line of sight to D-InSAR technology and mining subsidence law. However, the model is only suitable for the researches on mining subsidence of horizontal coal seam rather than inclined coal seam. In view of the above defects, according to the relationship between deformation of line of sight monitored by D-InSAR and three-dimensional deformation, considering the surface subsidence law of inclined coal seam mining, the surface subsidence monitoring method for inclined coal seam based on single line of sight to D-InSAR technology is proposed. The simulation experiment shows that the absolute relative error of the subsidence monitoring method is less than 9.53%, with an average of 1.31%. The absolute relative error of the horizontal movement monitoring along North-South (SN) and East-West (EW) is less than 9.78%, with an ave-rage of 3.71%, which meets the mining subsidence monitoring accuracy requirements. The surface movement and deformation caused by the mining of the 9310 working face of Nantun coal mine in yanzhou mining area, Shandong province China during 2012-01-27—2012-02-07 are successfully monitored by this method in this paper
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