International audience2D and 3D imageries can allow the optimization of rock mass exploitation (quarries, roads, rail networks, open pit, potentially tunnels and underground mines networks). The increasingly common use of photogrammetry makes it possible to obtain georeferenced 3D point clouds that are useful for understanding the rock mass. Indeed, new structural analysis solutions have been proposed since the advent of the 3D technologies. These methods are essentially focused on the production of digital stereonet. Production of additional information from 3D point clouds are possible to better define the structure of the rock mass, in particular the quantification of the discontinuities density. The aim of this paper is to test and vali...
Discontinuities play a key role in the mechanical, hydraulic and deformational behaviour of rock mas...
Block geometry is commonly the most important feature determining the behaviour of a rock mass and d...
The research investigates the possibility of using point cloud data from 3-D terrestrial laser scann...
International audience2D and 3D imageries can allow the optimization of rock mass exploitation (quar...
Finding new ways to quantify discontinuity persistence values in rock masses in an automatic or semi...
Geometric characterization of discontinuity planes in rock masses is an essential practice in rock e...
This paper describes the interim results of a study to characterize discontinuous rock masses using ...
The location and orientation of rock discontinuities, which are traditionally obtained from geologic...
Most engineering in, or on, rock close to the surface of the Earth is affected by the presence of di...
International audienceRock mass characterization is obviously a key element in rock fall hazard anal...
Light detection and ranging (LiDAR) can quickly and accurately obtain 3D point clouds on the surface...
Geologists and engineers traditionally characterise rock slopes through laboratory tests and data ca...
In the last two decades, significant research has been conducted in the field of automated extractio...
The geometric properties of rock mass discontinuities are essential for the evaluation of the safety...
We propose an inexpensive and easy-to-use methodology for remote characteriza-tion of underground ro...
Discontinuities play a key role in the mechanical, hydraulic and deformational behaviour of rock mas...
Block geometry is commonly the most important feature determining the behaviour of a rock mass and d...
The research investigates the possibility of using point cloud data from 3-D terrestrial laser scann...
International audience2D and 3D imageries can allow the optimization of rock mass exploitation (quar...
Finding new ways to quantify discontinuity persistence values in rock masses in an automatic or semi...
Geometric characterization of discontinuity planes in rock masses is an essential practice in rock e...
This paper describes the interim results of a study to characterize discontinuous rock masses using ...
The location and orientation of rock discontinuities, which are traditionally obtained from geologic...
Most engineering in, or on, rock close to the surface of the Earth is affected by the presence of di...
International audienceRock mass characterization is obviously a key element in rock fall hazard anal...
Light detection and ranging (LiDAR) can quickly and accurately obtain 3D point clouds on the surface...
Geologists and engineers traditionally characterise rock slopes through laboratory tests and data ca...
In the last two decades, significant research has been conducted in the field of automated extractio...
The geometric properties of rock mass discontinuities are essential for the evaluation of the safety...
We propose an inexpensive and easy-to-use methodology for remote characteriza-tion of underground ro...
Discontinuities play a key role in the mechanical, hydraulic and deformational behaviour of rock mas...
Block geometry is commonly the most important feature determining the behaviour of a rock mass and d...
The research investigates the possibility of using point cloud data from 3-D terrestrial laser scann...