The areas that are covered in a general training are:
First Day
 Introduction to 2DMove
- The software and structural modeling approach
- Design of the Tutorial, overview of 2DMove and its main toolboxes, shortcuts
- Object type, object management, visualisation
Importing and exporting data
- Creating a section or a map
- Importing map, seismic data, dips, wells
- Export options and formats
Cross section construction
- Digitising dips, and surface data
- Preferred orientation for a section; orientation analysis
- Section construction from surface data
Cross section validation and balancing
- Restoration strategies: block restoration, move-on-fault restoration, back stripping and forward modelling. Fault shape prediction and depth to detachment calculation.
- Algorithms and workflows for block restoration
- Balancing and restoring sections using Move-on-fault algorithms
- Forward modelling
Second day
 Introduction to 3DMove
- The software and structural modeling approach
- Overview of 3DMove and its main toolboxes, shortcuts
- Object type, object management, visualisation
3D model building and conditioning
- Importing sections, surface data and wells
- Creating surface from data points
- 3D model construction form 2D cross sections
- 3D model construction from field geology and dip measurements
- Thickness analysis, reconstructing eroded surfaces, fold construction
- Export options and formats
3D model validation and balancing
- Restoration strategies: block restoration, move-on-fault restoration, back stripping and forward modelling.
- Algorithms and workflows for block restoration, tracker tool and area misfit
- Balancing and restoring models using Move-on-fault algorithms
Analysing and updating the 3D model
- Static and dynamic analyses of 3D models
- Hydrocarbon system model: down-dip and up-dip functionality.
- Updating the structural model while drilling
Third day
 Introduction to 4DMove
- The software and structural modelling approach (scenario analysis)
- Overview of 4DMove and its main toolboxes, shortcuts
- Data import and integration
- 3D model building and conditioning: working with surfaces and volumes
- Analysing data: histograms, cross plots, stereo plots
- SCAT-analysis
- Export options and formats
 Non-plane strain restoration module (4DRestore)
- What is the workflow based approach
- Input parameters for 4DRestore
- Sensitivity to input parameters: analysing scenarios
 Statistical fracture modelling (4DFrac module)
- Condition data for fracture modelling
- Analyse well and field data to define inputs for fracture modelling
- Connectivity, porosity and permeability of a fracture network
 Forward and inverse modelling of turbidite flow (4DSediment module)
- Input parameters for turbidite flow modelling
- Forward and inverse modelling
- Sensitivity of the sediment modelling to input parameters: analysing scenarios
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