Shikai An, Liang Yuan, Ying Xu, Xiao Wang, Dawei Zhou
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Then, the multi-stage DEM differential processing is employed to get ground subsidence. Finally, the median and bilateral filters combine for denoise to obtain the high-precision ground subsidence. The results show that the accuracy of the ground DEM generated by UAV-LiDAR is 15 mm and the mean square error of the ground subsidence basin is 39 mm. UAV-LiDAR technology can quickly obtain abundant surface data and obtain high-precision ground subsidence. Therefore, the application of this technology and method in subsidence monitoring in mining areas is feasible. And it can provide support for ecological environment monitoring, land reclamation, and ecological restoration in mining areas. 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引用次数: 0
摘要
西部采煤区地面沉降的特点是变形快、破坏范围广、影响范围大。传统的观测方法不适合中国西部高强度矿区的地表破坏监测。因此,如何快速、准确、全面地监测高强度、大规模采矿造成的地面沉降和环境破坏是一个关键问题。本研究提出了一种利用无人机激光雷达(UAV-LiDAR)测量技术监测高强度采矿地面沉降的方法。以中国鄂尔多斯某矿山为例,通过对无人机激光雷达的地面点云进行克里金插值,得到数字高程模型(DEM)。然后,采用多级 DEM 差分处理获得地面沉降。最后,结合中值滤波器和双边滤波器进行去噪处理,得到高精度的地面沉降图。结果表明,无人机-激光雷达生成的地面 DEM 的精度为 15 毫米,地面沉降盆地的均方误差为 39 毫米。无人机-激光雷达技术可以快速获取丰富的地表数据,获得高精度的地面沉降数据。因此,该技术和方法在矿区沉陷监测中的应用是可行的。并可为矿区生态环境监测、土地复垦和生态修复提供支持。研究成果可为中国西部煤矿开采地表破坏监测提供有益依据。
Ground subsidence monitoring in based on UAV-LiDAR technology: a case study of a mine in the Ordos, China
Ground subsidence in Western coal mining areas is characterized by rapid deformation, extensive damage, and a wide range of impacts. The conventional observation methods are inappropriate for surface damage monitoring in high-intensity mining areas of Western China. Therefore, it is a crucial problem to quickly, accurately, and comprehensively monitor the ground subsidence and environmental damage caused by high-intensity and large-scale mining. In this study, we propose a monitoring method for the ground subsidence of high-intensity mining with Unmanned Aerial Vehicle Lidar (UAV-LiDAR) measurement technology. Taking a mine in Ordos of China as an example, the Digital Elevation Model (DEM) is obtained by Kriging Interpolation of the ground point cloud from UAV-LiDAR. Then, the multi-stage DEM differential processing is employed to get ground subsidence. Finally, the median and bilateral filters combine for denoise to obtain the high-precision ground subsidence. The results show that the accuracy of the ground DEM generated by UAV-LiDAR is 15 mm and the mean square error of the ground subsidence basin is 39 mm. UAV-LiDAR technology can quickly obtain abundant surface data and obtain high-precision ground subsidence. Therefore, the application of this technology and method in subsidence monitoring in mining areas is feasible. And it can provide support for ecological environment monitoring, land reclamation, and ecological restoration in mining areas. The research results can provide a useful basis for monitoring the surface damage of coal mining in Western China.
期刊介绍:
This journal offers original research, new developments, and case studies in geomechanics and geophysics, focused on energy and resources in Earth’s subsurface. Covers theory, experimental results, numerical methods, modeling, engineering, technology and more.