www.rocpro3d.com
Getting started easily
Powerful and fast computations
User friendly 3D visualization
Integrated analysis and statistical tools
Help to build risk maps
Positioning and dimensioning of protection works
Export of results to GIS
RocPro3DThe professional tool for
3 dimensional trajectometrysimulations of rock falls
* Version 5.7, compatibleWindows 7, 8 et 10(32 and 64 bits)
Creating the mesh pointsBy import of point files (DXF, TXT, CSV, DEM format),level curve files (DXF format). The mapping of imagesis possibleBy level curves digitization of a scanned map, asRocPro3Dhandlesirregular triangular meshesBy input of a 2D profile of points (X, Z), to which awidth (Y) is then added
Building the meshBy Delaunay triangulation, or by grid triangulation forDTM with regularly spaced pointsBy import of any triangular mesh (PLY, 3DS, STLformat)
Mapping of soils onto the DTMEasy mapping of the soils onto the DTM thanks tomulti-modes selection of faces: selection by individualfaces, by zones, by ranges (altitude, dip, etc.)
Physical parameters ofsoilsIn an intuitive dialog box, each soil parameter (energyrestitution coefficients, rolling/sliding coefficient, limitvelocities and angles for transition phases, andassociated uncertainties) can be easily modified. Tomake use even easier,RocPro3Dprovides 6predefined soil types
Physical modelChoice of a rigid block (integration of the block massand rotation in the computation) or a lumped-massformulation
Rolling/sliding kinematicsFrictional rolling (rigid block) or frictional sliding(lumped-mass) model, integrated numerically ontothe DTM using a stable and accurate algorithm
Impact physical modelEffects of block rotation (rigid block)Standard (constant) or velocity dependent Rn
Choice of the computation modeDeterministic modeProbabilistic mode, with choice of equiprobable orGaussian variables
RocPro3Dallows to create a new project by extractionof an area from a existing project, while preserving thepositioning and the soil parameters
C O N C E P T
CreatingthemeshpointsCreatingthemeshpointsCreatingthemeshpoints
C R E AT I N G T H E T E R R A I N M O D E L
e DTMeDTMeeDTM
C R E AT I N G T H E S O I L S
The display of the dips (using a color scale) can be helpfulfor soil positioningTh di l f h di ( i l l ) b h l
Block sourcesCreation of linear or surface sourcesNo limit on the number of sourcesSpecification of block settings (number,density,shape, size, starting conditions, associateduncertainties)
Choice of the computation strategyClassical computation, with display oftrajectories, easily achievable up to 20,000 blocksMassive computation, without limit on thenumber of computed blocks(1 million, evenmore), allowing an analysis with maps ofparameters and with protections statistics
For increased performances, computations canbe run in parallel on all your computer cores (thecomputation time is approximately divided bythe number of processors)
RocPro3D provides four main interactive andflexible views, allowing to analyze the results :
The 2D and 3D views, with data at each impactpoint (XYZ coordinates, soil, angles and velocitybefore and after rebound)
The vertical profile view along the blocktrajectories and the protection works,providingthe energy and height of the blocks
The graphs and histograms view for statisticalanalysis
RocPro3DprovidesRocPro3DprovidesRocPro3Dprovides
A N A LY Z I N G R E S U LT S
T R A J E C T O R I E S
esesees
C O M P U T I N G
Display of trajectoriesDisplay of trajectories in the 2D and 3D viewsDisplay of trajectories along a vertical profile, withrepresentation of the DTM, the soils and theprotectionsPossibility to select displayed trajectories (single orall, flyingabovetheprotection,etc.)
Analysis toolsColouringof trajectoriesaccordingto theparametervariation (block energy, velocity, height or traveltime)Diagram of the evolution of energy, velocity, heightand travel time along the trajectoryExport of computed data
P R O T E C T I O N W O R KS
www.rocpro3d.comE -mail : [email protected]
M A P S
Available mapsEnergyEnergy-class (risk map)HeightVelocity and travel timeTrajectories densityImpacts and stopping points
Grid settingsSpecification of the cell number and dimension
Statistical parameters of mapsChoice of the parameter analysed in each cell :maximum, mean, confidence limit (%), quantile (%),normality (test allowing to assess if the population ofthe cells follows a normal law, and consequently ifthemeanorconfidencelimitaremeaningful)
StatisticalanalysisofcellsFor each cell, analysis of the mean, standarddeviation and median, with histogram andassociated cumulated frequency curves
CreationPossibilityto createfictitiousprotections (datacollectors),nets orembankmentsNo limit on the number of protections
Impacts of blocks in the protectionDisplay of impacts in the protection, withcorresponding energy, velocity, height and traveltime (color scale)
Statistical analysis (energy, velocity, height, traveltime of blocks)For each protection, computation of impactsstatistics (mean, max, confidence level, quantiles,Kolmogorov-Smirnov test) and display of thehistogram and cumulated frequency curvesPossibility to refine the statistical analysis byapplying filters on the protection data (source,section, impact type)