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Surface subsidence monitoring in mining area of SBAS-InSAR based on Sentinel-1A
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In this study, the surface subsidence caused by underground mining is monitored by the technique of SBAS-InSAR. The second west mining area of Longshou mine, Jinchang Jinchuan Cu-Ni sulfide mine, Gansu province, is selected as the research area for the experiment. The 29 scene elevation rail Sentinel-1A image data from 2019.03-2020.3 are analyzed for the sequence analysis of the SBAS-InSAR. The vertical subsidence rate and cumulative subsidence results of the surface sequence of the mining area are obtained. According to the study, the minimum error of cumulative sedimentation between SBAS-InSAR and D-InSAR is 0.1mm, the maximum error is 21.37mm, and the median error is ±6.65mm. The minimum error of cumulative settlement between SBAS-InSAR and levelling is 0.66mm, the maximum is 23.74mm, and the median error is ±10.79mm. The results show that the application of the SBAS-InSAR technique in the monitoring of surface subsidence in the mining area is reliable, which provides an important basis for the subsequent safe mining in the mining area.
Informatics Publishing Limited
Title: Surface subsidence monitoring in mining area of SBAS-InSAR based on Sentinel-1A
Description:
In this study, the surface subsidence caused by underground mining is monitored by the technique of SBAS-InSAR.
The second west mining area of Longshou mine, Jinchang Jinchuan Cu-Ni sulfide mine, Gansu province, is selected as the research area for the experiment.
The 29 scene elevation rail Sentinel-1A image data from 2019.
03-2020.
3 are analyzed for the sequence analysis of the SBAS-InSAR.
The vertical subsidence rate and cumulative subsidence results of the surface sequence of the mining area are obtained.
According to the study, the minimum error of cumulative sedimentation between SBAS-InSAR and D-InSAR is 0.
1mm, the maximum error is 21.
37mm, and the median error is ±6.
65mm.
The minimum error of cumulative settlement between SBAS-InSAR and levelling is 0.
66mm, the maximum is 23.
74mm, and the median error is ±10.
79mm.
The results show that the application of the SBAS-InSAR technique in the monitoring of surface subsidence in the mining area is reliable, which provides an important basis for the subsequent safe mining in the mining area.
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