Decision-making fusion of InSAR technology and offset tracking to study the deformation of large gradients in mining areas-Xuemiaotan mine as an example

Ma, Jianquan and Yang, Juncheng and Zhu, Zhanrong and Cao, Husheng and Li, Shibo and Du, Xiaolan (2022) Decision-making fusion of InSAR technology and offset tracking to study the deformation of large gradients in mining areas-Xuemiaotan mine as an example. Frontiers in Earth Science, 10. ISSN 2296-6463

[thumbnail of pubmed-zip/versions/3/package-entries/feart-10-962362-r2/feart-10-962362.pdf] Text
pubmed-zip/versions/3/package-entries/feart-10-962362-r2/feart-10-962362.pdf - Published Version

Download (4MB)

Abstract

The multi-level disturbance of underground and surface caused by coal mining activities intensifies the deterioration of the ecological environment in the mining area. Among them, the uneven settlement caused by coal mining is the most intuitive manifestation of surface environmental damage. The uneven settlement in the mining area has the characteristics of large settlement magnitude and severe deformation. Therefore, based on 15 Sentinel-1A image data, this paper uses three methods: SBAS InSAR, continuous D-InSAR and offset tracking technology to monitor the surface deformation of the mining area. The results show that the continuous D-InSAR technology SBAS-InSAR technology is applied to the small deformation in the edge area of the subsidence basin. The mining area with low gradient subsidence of SBAS-InSAR can obtain better performance than continuous D-InSAR technology. The offset tracking technique is used to monitor the large gradient deformation in the center of the subsidence basin. Therefore, this paper proposes to expand the quantitative analysis through the spatial coherence threshold and the accuracy and successful image elements of the interference fringe displacement. Combine the advantages of the three methods and overcome the shortcomings of each method, fuse the deformation information of the three methods, and obtain the deformation law of the whole surface subsidence. The results show that the mean absolute error (MAE1-1) of continuity D-InSAR is 0.92 m, the mean absolute error (MAE2-1) of SBAS-InSAR is 0.94 m, and the mean absolute error (MAE3-1) of Offset-tracking is 0.25 m. The results of this fusion method are in good agreement with the measured data, and the mean absolute error (MAE4-1) of vertical displacement is 7 cm. Therefore, the fusion method has advantages over individual methods and provides a new idea in monitoring the large gradient deformation of coal mining subsidence in mining areas.

Item Type: Article
Subjects: Scholar Eprints > Geological Science
Depositing User: Managing Editor
Date Deposited: 04 Mar 2023 06:44
Last Modified: 07 Nov 2024 10:12
URI: http://repository.stmscientificarchives.com/id/eprint/1383

Actions (login required)

View Item
View Item