Abstract
The three-dimensional (3-D) displacements of mining areas is the basis of studying the mining subsidence law and obtaining surface movement parameters. The traditional multi-temporal interferometry synthetic aperture radar (InSAR) technology can only obtain the surface deformation in line-of-sight (LOS) direction, even if some methods can obtain the 3-D displacements of mining area based on InSAR. However, it has high data requirements for data types, which are not conducive to the inversion of 3-D displacements. In this paper, the symmetry of the surface basin caused by mining subsidence under different mining degrees is analyzed. According to the basic symmetrical features of mining subsidence—that the surface vertical displacement and horizontal displacement in near horizontal coal seam is symmetrical with respect to the main section of the basin, combined with time series InSAR technology (TS-InSAR)—a novel method for retrieving the 3-D displacement results from a single-geometry InSAR dataset based on symmetrical features (hereafter referred to as the SGI-SF method) is proposed. The SGI-SF method first generates multi-temporal observations of LOS displacement from a single-geometry InSAR dataset, and then transforms them into multi-temporal observations of 3-D displacement datasets according to symmetrical features. There is no necessity to obtain the surface movement parameters from the measured data to calculate 3-D displacement fields. Finally, the time series of 3-D displacements are estimated from multi-temporal 3-D displacements using the singular value decomposition (SVD) method. Nine descending Sentinel-1 images from the Yulin mining area of China are used to test the proposed SGI-SF method. The results show that the average root mean square errors (RMSE) in the vertical and horizontal direction of the three-dimensional deformations are approximately 9.28 mm and 13.10 mm, respectively, which are much smaller than mining-induced displacements and can provide support for deformation monitoring in mining areas.
Highlights
The time series displacements along the up–down, west–east and north–south directions in the study area with respect to the reference acquisition of 26 November 2018 are estimated by Equation (20)
Based on the analysis of symmetry characteristics of surface movement caused by coal method based on the analysis of symmetry characteristics of surface movement caused by mining, which has never been used in 3-D deformation inversion of coal mining area
We proposed a new model of time series 3-D displacement inversion from a single-geometry interferometry synthetic aperture radar (InSAR) dataset according to the symmetrical characteristics of subsidence and horizontal displacement in the surface basin of near the horizontal coal seam
Summary
Various mining movement parameters can be obtained by obtaining the in-situ surface deformation of observation stations in mining areas [2]. Satellite System (GNSS) measurement [6,7,8], conventional photogrammetry based on airborne imagery [9] and airborne laser (Light Detection and Ranging or LiDAR) [10]. These methods are usually time-consuming, climate-sensitive, expensive and labor-intensive and cannot obtain the mining-induced surface deformation of the whole basin [11]
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