1. Digital terrain modeling, motivation. 2. Methods of data collection, aerial scanning and scanning. 3. Unmanned aerial vehicles and their use for terrain modeling. 4. Principles of digital representation of terrain relief, interpolation and triangulation. 5. Principles of digital representation of terrain relief, interpolation and triangulation. 6. Principles of digital representation of terrain relief, interpolation and triangulation. 7. Features and properties of digital terrain representation. 8. Features and properties of digital terrain representation. 9. Spatial analyses, slope and orientation, visibility. 10. Spatial analyses, slope and orientation, visibility. 11. Spatial analyses, slope and orientation, visibility. 12. Modelling of buildings and vegetation 13. Application of terrain models in industry, agriculture and other segments.

1. Working with point cloud, preparation for terrain modelling. 2. Working with point cloud, preparation for terrain modelling. 3. Creation of digital relief model in SW for GIS. 4. Creating a digital surface model (including buildings and vegetation) in a SW for GIS. 5. Creation of normalized surface model and height extraction of objects (buildings, trees). 6. Application and analysis of 3D spatial model in SW for GIS. 7. Application and analysis of 3D spatial model in SW for GIS. 8. Terrain modelling in SW for engineering purposes. 9. Creation of land relief model for SW for engineering tasks including defining breaklines, polygons, etc. 10. Creation of land relief model for SW for engineering tasks including defining breaklines, polygons, etc. 11. Water body relief model for volume calculation and height comparison. 12. Water body relief model for volume calculation and height comparison. 13. Application of digital model terrain.