论文摘要
Terrestrial laser scanning(TLS) is a useful technology for rock mass characterization. A laser scanner produces a massive point cloud of a scanned area, such as an exposed rock surface in an underground tunnel,with millimeter precision. The density of the point cloud depends on several parameters from both the TLS operational conditions and the specifications of the project, such as the resolution and the quality of the laser scan, the section of the tunnel, the distance between scanning stations, and the purpose of the scans. One purpose of the scan can be to characterize the rock mass and statistically analyze the discontinuities that compose it for further discontinuous modeling. In these instances, additional data processing and a detailed analysis should be performed on the point cloud to extract the parameters to define a discrete fracture network(DFN) for each discontinuity set. I-site studio is a point cloud processing software that allows users to edit and process laser scans. This software contains a set of geotechnical analysis tools that assist engineers during the structural mapping process, allowing for greater and more representative data regarding the structural information of the rock mass, which may be used for generating DFNs. This paper presents the procedures used during a laser scan for characterizing discontinuities in an underground limestone mine and the results of the scan as applied to the generation of DFNs for further discontinuous modeling.
论文目录
文章来源
类型: 期刊论文
作者: Juan J.Monsalve,Jon Baggett,Richard Bishop,Nino Ripepi
来源: International Journal of Mining Science and Technology 2019年01期
年度: 2019
分类: 工程科技Ⅰ辑
专业: 矿业工程
单位: Mining and Minerals Department, Virginia Polytechnic Institute & State University
基金: funded by the NIOSH Mining Program under Contract No. 200-2016-91300
分类号: TD872.5
页码: 131-137
总页数: 7
文件大小: 1151K
下载量: 26