Terrestrial remote sensing techniques including both digital photogrammetry and laser scanning, represent useful complements to conventional field mapping and rock mass discontinuity characterization. Several studies have highlighted practical advantages at close-range (< 300 m), including the ability to map inaccessible rock exposures and hazard reduction related to both traffic and rockfall along investigated outcrops. In addition, several authors have demonstrated their potential to provide adequate quantification of discontinuity parameters. Consequently, their incorporation into rock slope stability investigations and design projects has grown substantially over recent years.As these techniques are increasingly applied by geologists...
This is the author accepted manuscript. The final version is available from Springer Verlag via the ...
Discontinuities play a key role in the mechanical, hydraulic and deformational behaviour of rock mas...
This paper describes the interim results of a study to characterize discontinuous rock masses using ...
The use of remote techniques to capture the geometrical characteristics of rock masses has seen incr...
Data collection for kinematic and structural analyses in hills or rock slopes still maintains, nowad...
Remote sensing has become an integral component of rock mass characterization. most research to date...
Geologists and engineers traditionally characterise rock slopes through laboratory tests and data ca...
In this paper, we describe an integrated remote sensing approach for the collection of geomechanical...
The stability of man-made rock slopes is greatly influenced by the orientation of the discontinuitie...
Remote sensing tools offer a great opportunity for performing non-contact surveys on rock masses.A g...
International audienceRock face diagnosis is a monitoring operation that is used to optimize rock-ri...
This paper describes the data collection and the analysis in a quarry slope located in the Torano ba...
Most instability processes in carbonate rock masses, such as slides, falls and topples are related t...
The use of a remotely piloted aircraft system (RPAS) and digital photogrammetry is valuable for the ...
This is the author accepted manuscript. The final version is available from Springer Verlag via the ...
Discontinuities play a key role in the mechanical, hydraulic and deformational behaviour of rock mas...
This paper describes the interim results of a study to characterize discontinuous rock masses using ...
The use of remote techniques to capture the geometrical characteristics of rock masses has seen incr...
Data collection for kinematic and structural analyses in hills or rock slopes still maintains, nowad...
Remote sensing has become an integral component of rock mass characterization. most research to date...
Geologists and engineers traditionally characterise rock slopes through laboratory tests and data ca...
In this paper, we describe an integrated remote sensing approach for the collection of geomechanical...
The stability of man-made rock slopes is greatly influenced by the orientation of the discontinuitie...
Remote sensing tools offer a great opportunity for performing non-contact surveys on rock masses.A g...
International audienceRock face diagnosis is a monitoring operation that is used to optimize rock-ri...
This paper describes the data collection and the analysis in a quarry slope located in the Torano ba...
Most instability processes in carbonate rock masses, such as slides, falls and topples are related t...
The use of a remotely piloted aircraft system (RPAS) and digital photogrammetry is valuable for the ...
This is the author accepted manuscript. The final version is available from Springer Verlag via the ...
Discontinuities play a key role in the mechanical, hydraulic and deformational behaviour of rock mas...
This paper describes the interim results of a study to characterize discontinuous rock masses using ...