The disciplines that refer to geomatics and can support analyses, projects, environmental surveys: GNSS, LIDAR, aerial photogrammetry, remote sensing, cartography
Teacher's notes and slides.
Additional references:
M.A. Gomarasca, Basics of Geomatics, Springer, 978-1402090141
C.D. Ghilani, P.R. Wolf, Elementary Surveying: An Introduction to Geomatics, Prentice Hall, 978-0132554343
Learning Objectives
Geospatial 3D data acquisition, generation and processing.
GNSS measurements, designing (close-range and drone) photogrammetric and LiDAR surveys.
2D map generation
Prerequisites
A basic knowledge of geography
Teaching Methods
Lectures and practices
Type of Assessment
Evaluation of the proposed assignments, oral exam
Course program
- Basics of geodesy, Earth representation
- Map projections
- Satellite positioning and navigation systems (GNSS)
- Georeferencing, allignment of 3D data, comparison between 3D models
- Elements of theory of errors and of linear estimation
- 3D model generation from photos (close-range and drone photogrammetry)
- Basics of terrestrial and aerial laser scanning
- 2D map generation (orthophoto, DSM)