The course covers the following topics:
Introduction to Geomatics;
Geodesy;
Cartography
GIS
Modern topography
Global Navigation Satellite Systems
Digital aerial and drone photogrammetry;
GNSS;
Remote Sensing.
Theoretical lessons are alternated with practical and numerical exercises on the topics covered.
A, Riggio, R. Carlucci, Topografia di Base, EPC Editore, 2015
F. Migliaccio, D. Carrion, Sistemi informativi territoriali, UTET 2016
More references on Moodle
Learning Objectives
At the end of the course, after passing the final test, the student has the basic knowledge of geodesic elements, reference systems and coordinates. He has acquired the theoretical and practical bases for the use of topographic instruments and satellite positioning techniques. It knows how to statistically process observations made according to polygonal survey schemes and simple networks. He knows the introductory concepts of the theory of cartographic representations, in order to create and use cartographic works at different scales and can set up a drone photogrammetric survey of a portion of land.
Prerequisites
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Teaching Methods
An inductive approach to the topics covered is proposed. Techniques and tools are shown to students, as well as their application to real case studies. The theoretical and methodological aspects are discussed in depth during the lessons of the course.
Frontal lessons alternate with practical and computational exercises.
Further information
All information and material related to lessons and exercises are available on the Moodle platform
Type of Assessment
Written test and oral interview. Delivery of intermediate exercises.
Course program
Geodesy: the equipotential surfaces and the geoid; the geometry of the ellipsoid. Coordinate systems and transformation between local ellipsoidical, geocentric and cartesian coordinates. Geodetic reference systems (global and local), elevation systems and differences in height.
Cartographic representations and maps. Cartographic projections. Official Italian cartography. Numerical cartography and its evolution.
Geographic Information Systems. Databases: geographical and alphanumeric components. GIS tools: topological operators and queries. Interoperability and representation: INSPIRE directive and OGC services.
Satellite positioning techniques. The GNSS system: system architecture, signal structure, observable differentiation techniques. Design and execution of a survey, use of software for data processing and analysis of the accuracies achievable with different methodologies.
Modern topographic instruments (total stations) and elementary survey schemes.
Terrestrial laser scanning systems. Data alignment and georeferencing. DEM and DSM. Data segmentation and classification.
Digital aerial photogrammetry. Remotely piloted aircraft system: technical specs. Italian regulation. Flight path plan for the drone. Orientation of the images. Scaling and georeferencing of the model. Digital orthophotos.