72741 - Cartography and Spatial Data Management

Learning outcomes

The course aims to examine in depth the aspects of classical and digital cartography and provides elements related to the modern geomatic techniques for the monitoring, representation and analysis of the territory. The Geographic Information Systems are introduced and the current techniques for surveying and processing data for cadastral purposes are described.

Course contents

The Topography and Cartography course provides the basic elements of Geomatics, treating in a modern way the techniques of terrestrial and spatial positioning, photogrammetry, laser scanning and numerical cartography. In integration with the theoretical lessons, practical exercises are organized, to make the student able to perform topographic-photogrammetric surveying operations using the latest generation instruments and to process the acquired data in the lab.

Contents:

Theoretical bases of cartography: the general problem of cartographic projection; types of projections; classification of maps; deformations in a cartographic map; the concept of scale and error in a map; Gauss conformal projection and correspondence formulas; Italian cartography; The UTM-UPS system; The Gauss Boaga system.

Introduction to laser scanner: classification of laser systems; the LIDAR system; the mobile laser scanner; fields of application of laser systems.

Introduction to photogrammetry: historical information and the transition from analogue to digital photogrammetry; the central projection and the equations of collinearity; the design of an aerial and terrestrial photogrammetric survey; examples of final products obtainable by photogrammetry. The photogrammetric process: classical phases; distortions in a frame; the internal orientation with the correction of the image coordinates. The external orientation of a photogrammetric block; precision in the photogrammetric restitution in the normal case.

Digital photogrammetry. Digital images: radiometric and geometric resolution. Methods for Stereoscopic Digital Vision. The Image Matching. The digital orthophoto. Errors in a frame. Photoplans and Orthophotos. Resampling of a digital image.

Numerical cartography: methods for the production of numerical cartography; restitution and vectorization; vector files and raster files: formats and characteristics; georeferencing a digital image.

The Geographic Information Systems.

The theoretical lessons are integrated with practical exercises using free and open source software QGIS.

Readings/Bibliography

Scientific publications, lectures notes and slides in digital form.

Bibliographic references for home study and further reading materials:

Kraus, K., 1998. Fotogrammetria vol.1 Teoria e applicazioni. Editore: Levrotto e Bella. ISBN: 888218028X.

Folloni, G., 1982. Principi di Topografia.

Migliaccio, F., Carrion, D., 2016. Sistemi Informativi Territoriali. Principi e applicazioni. UTET Università Editore. EAN: 9788860084750.

Teaching methods

Lectures and exercises in Laboratory or on personal computer using Open-Source software.

Analysis and discussion using examples of real cases.

Assessment methods

The final exam of "Topography and Cartography" verifies the acquisition of the expected knowledge and skills by carrying out a written and oral test, without the help of notes or books.

The written test consists of two open questions that give 15/30 each.

The student must answer the questions by writing with a pen or marker on white sheets. Each sheet must be numbered and must have the candidate's name, surname and registration number.

The test lasts 70 minutes.

The oral exam will be held at the end of the written test in alphabetical order.

At the time of the test, students must have an identification document (Identity Card or Driving License or Passport) and a badge, and show them to the examiners.

The oral exam consists of an in-depth study aimed at ascertaining the acquired knowledge. Passing the exam will be guaranteed to students who demonstrate mastery and operational ability in relation to the key concepts illustrated in the course.

Teaching tools

The course includes exercises in laboratory or on personal computer to complete and deepen the acquired theoretical knowledge.

In consideration of the type of activity and the adopted teaching methods, the attendance of this course requires the prior participation of all students in the Modules 1 and 2 on safety and health in the study places, in e-learning mode. 

See https://elearning-sicurezza.unibo.it/?lang=en

Office hours

See the website of Valentina Alena Girelli