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
Further information
GIS exercises and training for the optimised management of agricultural and inhabited areas.
Disabled students or students with learning disabilities are invited to contact the "UNIFI Include" desk for instructions on how to achieve the learning objectives in the most appropriate way for their specific needs. The agreed measures must be shared with the teacher in due time.
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)
Sustainable Development Goals 2030
7 Affordable and clean energy
9 Industry, innovation and infrastructure
11 Sustainable cities and communities