Depeng et al., 2010 - Google Patents
Monitoring slope deformation using a 3-D laser image scanning system: a case studyDepeng et al., 2010
- Document ID
- 5701075857264395070
- Author
- Depeng Y
- Jiping W
- Jinxing Z
- Xiaoxue C
- Huijun R
- Publication year
- Publication venue
- Mining Science and Technology (China)
External Links
Snippet
An ILRIS-36D 3-D laser image scanning system was used to monitor the Anjialing strip mine slope on Pingshuo in Shanxi province. The basic working principles, performance indexes, features and data collection and processing methods are illustrated. The point cloud results …
- 238000006073 displacement reaction 0 abstract description 16
Classifications
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01V—GEOPHYSICS; GRAVITATIONAL MEASUREMENTS; DETECTING MASSES OR OBJECTS
- G01V1/00—Seismology; Seismic or acoustic prospecting or detecting
- G01V1/28—Processing seismic data, e.g. analysis, for interpretation, for correction
- G01V1/30—Analysis
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Xu et al. | Extraction and statistics of discontinuity orientation and trace length from typical fractured rock mass: A case study of the Xinchang underground research laboratory site, China | |
| Matasci et al. | Assessing rockfall susceptibility in steep and overhanging slopes using three-dimensional analysis of failure mechanisms | |
| CN201740777U (en) | Rapid measurement system for measuring slope soil erosion | |
| Cao et al. | Automatic fracture detection based on Terrestrial Laser Scanning data: A new method and case study | |
| CN103644896B (en) | A kind of engineering geological mapping method based on 3 D laser scanning | |
| CN105242279A (en) | Landslide body change detection method based on laser radar technology | |
| CN107764192A (en) | One kind landslide multi-point displacement intelligent monitoring device and monitoring method | |
| Depeng et al. | Monitoring slope deformation using a 3-D laser image scanning system: a case study | |
| Feng et al. | A survey of 3D laser scanning techniques for application to rock mechanics and rock engineering | |
| Guo et al. | Utilization of 3D laser scanning for stability evaluation and deformation monitoring of landslides | |
| Wu et al. | Rapid intelligent evaluation method and technology for determining engineering rock mass quality | |
| Lemy et al. | A case study of monitoring tunnel wall displacement using laser scanning technology | |
| Qin et al. | Development and application of an intelligent robot for rock mass structure detection: A case study of Letuan tunnel in Shandong, China | |
| Sui et al. | Application of 3D laser scanner for monitoring of landslide hazards | |
| CN207423114U (en) | A kind of landslide multi-point displacement intelligent monitoring device | |
| Wang et al. | Application research of earth volume calculation based on 3D laser point cloud data | |
| Hu et al. | Slope excavation quality assessment and excavated volume calculation in hydraulic projects based on laser scanning technology | |
| Zhang et al. | 3D Visualization of Landslide Based on Close-Range Photogrammetry. | |
| Yang et al. | Overview of slope monitoring technology | |
| Yuan et al. | Joint investigation and 3D visual evaluation of rock mass quality | |
| Pluta et al. | Possibilities and limitations of using iPhone 13 Pro with built-in LiDAR sensor in cave research: on the example of paleoflow analysis in Mylna Cave (Western Tatra Mts, Poland) | |
| Domitrović et al. | 3D modelling of asphalt concrete overlay based on GPR data | |
| Ortyl et al. | Subsoil recognition for road investment supported by the integration of geodetic and GPR data in the form of a point cloud | |
| Tesfamariam | Comparing discountinuity surface roughness derived from 3D terrestrial laser scan data with traditional Field-based methods | |
| Lim et al. | Laser scanning surveying of linear features: Considerations and applications |