Add to ORKGHigh, near-vertical rock faces were investigated to determine the role of intact rock fracturing in rockfall initiation. Terrestrial LiDAR and photogrammetry were used to characterize historical and recent rockfall failure surfaces at two sites – one natural cliff face, and one engineered mine wall. Intact rock fracturing associated with each rockfall was estimated by comparing failure surface geometry to mapped discontinuity orientation and persistence; and by the application of two point cloud roughness analysis techniques. Estimates of intact rock bridge proportion provided the constraints for input parameters of slope-scale distinct element models. These models used a time-dependent strength degradation code, applied to a Voronoi networ...
The mechanical controls on small (< 10 m3), individual rockfall in jointed rock masses are not well ...
Recent research indicates that brittle fracture and step-path failure are important considerations i...
In recent years data acquisition from remote sensing has become readily available to the quarry sect...
In this study, terrestrial LiDAR is used to characterize the contribution of rock bridge fracturing ...
International audienceAdvances in remote sensing methods such as lidar and photogrammetry have allow...
Rockfalls strongly influence the evolution of steep rocky landscapes and represent a significant haz...
Field investigations were undertaken at three open pit mines and one major natural rock slope. Modif...
none3siThe importance of characterising intact rock fracturing and rock mass damage in rock engineer...
We present a long-term spatio-temporal analysis of rock slope evolution using a Terrestrial LiDAR ai...
This paper presents a case study in which a slope failure was observed on the west wall of the LAB ...
In this paper we examine data generated using high-resolution three-dimensional laser scanning monit...
During the last decade significant advances have been made in geomechanical modelling and remote sen...
The mechanical controls on small (< 10 m3), individual rockfall in jointed rock masses are not well ...
Recent research indicates that brittle fracture and step-path failure are important considerations i...
In recent years data acquisition from remote sensing has become readily available to the quarry sect...
In this study, terrestrial LiDAR is used to characterize the contribution of rock bridge fracturing ...
International audienceAdvances in remote sensing methods such as lidar and photogrammetry have allow...
Rockfalls strongly influence the evolution of steep rocky landscapes and represent a significant haz...
Field investigations were undertaken at three open pit mines and one major natural rock slope. Modif...
none3siThe importance of characterising intact rock fracturing and rock mass damage in rock engineer...
We present a long-term spatio-temporal analysis of rock slope evolution using a Terrestrial LiDAR ai...
This paper presents a case study in which a slope failure was observed on the west wall of the LAB ...
In this paper we examine data generated using high-resolution three-dimensional laser scanning monit...
During the last decade significant advances have been made in geomechanical modelling and remote sen...
The mechanical controls on small (< 10 m3), individual rockfall in jointed rock masses are not well ...
Recent research indicates that brittle fracture and step-path failure are important considerations i...
In recent years data acquisition from remote sensing has become readily available to the quarry sect...