1. Primary data and their acquisition, preparation, editing (digital and analogue data).
2. Basic methods of spatial data collection for DMT creation.
3. DMT as a starting platform.
4. Applications over DMT using new design systems.
5. Principles of design (modelling) of linear structures (corridors), hydrology (Rac.method, CN curves), water reservoirs, erosion, analysis of mass movement (cubic volumes) on the construction site.
6. Modelling of new conditions on the ground.
7. Modelling of underground spaces - mine workings, tunnels, aquifers, including continuity.
8. Design of rehabilitation, revitalisation and reclamation in the landscape.
9. Design of blasting works.
10. Basics of geostatistical methods.
11. Machine Control.
12. BIM as a project integrator and monitoring.
13. BIM as a tool for construction lifecycle management.
14. Spatial visualization of proposed measures in the landscape.
2. Basic methods of spatial data collection for DMT creation.
3. DMT as a starting platform.
4. Applications over DMT using new design systems.
5. Principles of design (modelling) of linear structures (corridors), hydrology (Rac.method, CN curves), water reservoirs, erosion, analysis of mass movement (cubic volumes) on the construction site.
6. Modelling of new conditions on the ground.
7. Modelling of underground spaces - mine workings, tunnels, aquifers, including continuity.
8. Design of rehabilitation, revitalisation and reclamation in the landscape.
9. Design of blasting works.
10. Basics of geostatistical methods.
11. Machine Control.
12. BIM as a project integrator and monitoring.
13. BIM as a tool for construction lifecycle management.
14. Spatial visualization of proposed measures in the landscape.