CODE 98064 ACADEMIC YEAR 2023/2024 CREDITS 5 cfu anno 2 BIOLOGIA ED ECOLOGIA MARINA 10723 (LM-6) - GENOVA 5 cfu anno 2 BIOLOGIA ED ECOLOGIA MARINA 10723 (LM-75) - GENOVA 5 cfu anno 2 INGEGNERIA EDILE - ARCHITETTURA 9914 (LM-4) - GENOVA 5 cfu anno 1 ENVIRONMENTAL ENGINEERING 10720 (LM-35) - GENOVA SCIENTIFIC DISCIPLINARY SECTOR ICAR/06 LANGUAGE English TEACHING LOCATION GENOVA SEMESTER 1° Semester TEACHING MATERIALS AULAWEB OVERVIEW The teaching provides the necessary tools for the management and analysis of the different spatial data sources available today relating to both the terrestrial and marine environment, including the newest and highest resolution ones such as Lidar digital terrain models and satellite images. Several areas of application of the exercises will be addressed through the software GIS (Geographic Information System), for planning, management and monitoring the environment. The use of free and open source geographic software (GFOSS) and the expertise acquired in the management of geographic data ensure that the teaching contributes to the pursuit of the UN 2030 Agenda's Sustainable Development Goals no. 4, 5, 10, 11, 15. The teaching will develop the following transversal skills and competences (soft-skills): teamwork with a collaborative and constructive attitude; strategic thinking and critical thinking; effective communication and argumentative skills. AIMS AND CONTENT LEARNING OUTCOMES The course provides the necessary tools for the management and analysis of the various spatial data available today relating to the terrestrial, marine and aerial environment, including the most recent and high-resolution ones such as LiDAR Digital Terrain Models and satellite images. Several applications supporting the management of the environment will be addressed through GIS (Geographic Information System) software. AIMS AND LEARNING OUTCOMES Theoretical and practical acquisition of the techniques for the treatment of georeferenced data, as a tool to support environment management as well as decision support system. Ability to identify the most suitable cartographic data and the necessary processing to achieve the expected result. Ability to analyse results according to the metric resolution of the data. Use of free and open source software in accordance with the directive of the Minister for Innovation and Technology, December 19, 2003 to encourage the use of these technologies. The following transversal skills and competences (soft-skills) will also be developed, which will allow the relevant Open Badges to be awarded: functional literacy - advanced level personal competence - advanced level social competence - advanced level learning to learn competence - advanced level project creation competence - advanced level with emphasis on group work with a collaborative and constructive attitude, strategic thinking and critical thinking, effective communication and argumentative skills. PREREQUISITES none TEACHING METHODS Frontal theoretical lectures are alternated with computer-based lectures and team working to put these notions into practice in real application situations. Lessons will be held in the classroom, but will also be available in synchronous and asynchronous online modes. The following innovative and interactive teaching tools are used: - instant polls, both to stimulate students' attention and to check their level of learning, developing the ability to learn how to learn. - Team Working and Problem Based Learning, applied in the context of GIS exercises both guided by the teacher and carried out independently in groups, developing literacy, personal and social skills as well as in project creation. The teaching is held in English. Working students and students with certified DSA (Specific Learning Disorders), disabilities or other special educational needs are advised to contact the lecturer at the beginning of the course in order to agree on teaching and examination methods that, while respecting the teaching objectives, take into account individual learning methods. SYLLABUS/CONTENT Numerical cartography: hints at acquisition methods, from traditional to numerical cartography, error of graphism and nominal scale, metric and semantic data, topology, metadata. Geographic Information System (GIS): operating logic and functions; major existing software, primarily free and open source; applications overview. Data and georeferencing: recalls of the main reference systems and cartographic projections, management of georeferenced data in different datum, the EPSG codes, georeferencing procedure, official and crowdsourcing cartography available via web. Raster and vector data: data models and main operators, including matrix algebra, reclassification, query and geoprocessing. DataBase: structure, queries and SQL; major software and their spatial extension for the treatment of georeferenced data; interaction with GIS software. Digital Terrain Models: features and data structures, methods of interpolation for their construction, features and management of LIDAR data, main morphological analysis. Digital images: acquisition methods, color compositions and spectral signature, geometrical and radiometric resolutions, color features of common file formats; features and management of multispectral satellite images; hints on digital image processing and filtering; automatic image classification. GNSS positioning data: features and management in a GIS environment. WebGIS and Geoservices: features and operation logic of the techniques for publication, consultation and processing of geographic data through the web. RECOMMENDED READING/BIBLIOGRAPHY Lecture notes and material are provided by the teacher via aulaweb. Texts for consultation: Burrough P.A., McDonnel R.A., Principles of Geographical Information Systems, Oxford University Press, 1998. Longley P.A., Goodchild M.F., Maguire D.J., Rhind D.W., Geographic Information Science and Systems, Ed. John Wiley & Sons, 2015, ISBN: 1118676955, 9781118676950. Neteler M., Mitasova H., 2008. Open Source GIS: A GRASS GIS Approach. Third edition. 420 pages, Springer, New York (ISBN-10: 038735767X; ISBN-13: 978-0387357676). Online User Manual of GRASS: http://grass.osgeo.org/documentation/manuals/ Online GRASS Tutorial: http://www.ing.unitn.it/~grass TEACHERS AND EXAM BOARD BIANCA FEDERICI Ricevimento: By appointment, by calling (+39) 010 335 2421 or sending an e-mail (bianca.federici at unige.it) or a message on Teams Exam Board BIANCA FEDERICI (President) ILARIA FERRANDO ALESSANDRO IACOPINO ALI ALAKBAR KARAKI PAOLA SALMONA DOMENICO SGUERSO (President Substitute) LESSONS LESSONS START https://corsi.unige.it/10720/p/studenti-orario Class schedule The timetable for this course is available here: Portale EasyAcademy EXAMS EXAM DESCRIPTION The examination consists of an oral test, comprising: - presentation and discussion of an application realised in GIS in small groups (2 to 4 people) aimed at analysing the territory for its management/planning; - questions relating to essential theoretical concepts for the correct management of geographical data, such as reference systems and cartographic projections, the concept of cartographic scale, the characteristics of different data formats, the fundamental concepts of orthophotos, image classification, databases and geoprocessing. The examination may be conducted online in the cases provided for in the University Regulations. ASSESSMENT METHODS The following will be assessed: - the critical discussion of the results obtained in the application aimed at analysing the territory in a GIS environment; - the quality of the oral presentation, as it is considered preparatory to the students' future working life, enabling them to better acquire the ability to share ideas and work in a team; - the knowledge of essential theoretical concepts for the correct management of geographical data in a GIS environment. Exam schedule Data appello Orario Luogo Degree type Note 10/01/2024 09:00 GENOVA Orale 07/02/2024 09:00 GENOVA Orale 28/05/2024 09:00 GENOVA Orale 25/06/2024 09:00 GENOVA Orale 16/07/2024 09:00 GENOVA Orale 09/09/2024 09:00 GENOVA Orale FURTHER INFORMATION Working students and students with SLD, disability or other special educational needs certification are advised to contact the teacher at the beginning of the course to agree on teaching and examination methods that, in compliance with the teaching objectives, take account of individual learning methods. Agenda 2030 - Sustainable Development Goals Quality education Gender equality Reduce inequality Sustainable cities and communities Life on land OpenBadge PRO3 - Soft skills - Alfabetica avanzato 1 - A PRO3 - Soft skills - Personale avanzato 1 - A PRO3 - Soft skills - Sociale avanzato 1 - A PRO3 - Soft skills - Imparare a imparare avanzato 1 - A PRO3 - Soft skills - Creazione progettuale avanzato 1 - A