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Code
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119253 |
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Language
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ITA |
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Type of certificate
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Profit certificate
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| Module:
(objectives)
The course is 56 hours long (7 CFU) and iams to introduce students at the basis of cartography, especially at the usage of geographic information systems. During the course, history of cartography, traditional definitions and concepts of cartography will be provided (types of maps, scale, projection systems, etc.) as well as issues about digital cartography (rasters, vectors). Base knowledge of querying territorial information systems will be given, in order to edit a personal SIT. At the end of the course, the student has to be familiar with the main softwares of digital cartography, web GIS, and Web Map Service systems.
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Language
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ITA |
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Type of certificate
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Profit certificate
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Credits
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7
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Scientific Disciplinary Sector Code
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AGR/10
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Contact Hours
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56
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Type of Activity
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Core compulsory activities
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Teacher
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VESSELLA Federico
(syllabus)
• HISTORY OF CARTOGRAPHY
o The philosophy of maps
o The first representations of space
o The world of Sumeri, Assyrians and Babylonians
o The world according to ancient Greeks
o The pragmatism of Roman culture
o Tolomeo and his geography
o The Medieval symbology
o Flat vs Spherical Earth
o The cartography from Medieval to Reinaissance
o Mercator and the Dutch School
o The longitudinal question
o The new planispheres
o Cassini, the 18th century and the "Carte de la France"
o The military topography maps
o History of Urban and Rural Cadastres
o The scientific cartography after the 1750
o Alternative cartogeaphic projections
o Speculations about cartographic stereotypes
• IGM, CTR
o Cartography at 100.000 and its subdivisions
o The Technical Regional Map 1:10.000
• Territorial Informative Systems (TIS)
o Introduction and basic definitions
o What is a TIS
o What is a map
o The Earth shape: sphere, ellipsoid, geoid
o Coordinate system:Latitude, Longitude and Cartesian system
o Reference systems: global, local and geographical projections
o Scales
o Types of maps
o Digital representations: vectors and rasters
o Geographis Information Systems (GIS) and Territorial Informative Systems (TIS)
o TIS applications
o Introduction to GIS apps: functions and potentialities
o GIS components
o Introduction to online visualization softwares
o Web Map Services (WMS)
o Google Earth: basic and advanced functions
• QGIS OPEN SOURCE SOFTWARE
o Introduction
o The environment: desktop and main functions
o The useful plug-ins
o Intriduction to vectors and rasters models
o Editing
o Attribute tables: management and editing
o Production of tematic maps
(reference books)
PowerPoint e testi di approfondimento del docente (caricati su Moodle)
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Dates of beginning and end of teaching activities
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From to |
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Delivery mode
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Traditional
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Attendance
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not mandatory
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Evaluation methods
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Written test
Oral exam
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| Module:
(objectives)
Learning Objectives:
The course provides fundamental knowledge related to the surveying and representation of the territory, as well as essential elements concerning forest construction. The student will acquire basic knowledge about the methods, tools, and operations for surveying and observing the territory, as well as the principles and tools for its representation. They will apply this knowledge to the planning, execution, and presentation of a field survey. Basic knowledge of forest construction will enable the student to undertake simple design activities.
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Language
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ITA |
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Type of certificate
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Profit certificate
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Credits
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7
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Scientific Disciplinary Sector Code
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AGR/10
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Contact Hours
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56
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Type of Activity
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Core compulsory activities
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Teacher
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Ripa Maria Nicolina
(syllabus)
Survey and representation of the territory
Reference surfaces, angle, distance, elevation, height difference, slope.
Notes on the operations of relief
Measurement of angles and distances. Planimetric survey methods: intersections, open and closed polygons. Detail relief. Elevation survey methods: leveling. Graphic rendering of the relief: quoted plan, level curve plan.
GNSS system:
General information, operating principles, methods of carrying out the survey using GNSS.
Earth observation systems
Principles of remote sensing, main Earth Observation missions, analysis of remote sensing images
Review of the main cartographic projection systems.
Elements of Forest Construction
References of static, static moments and inertia of sections, radius of inertia, resistance module. Hooke’s law, behavior of real bodies under load, design problems and structure verification. Study of beams, stress diagrams, calculation of verification and design of isostatic beams.
(reference books)
Educational material available on the Moodle platform
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Dates of beginning and end of teaching activities
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From to |
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Delivery mode
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Traditional
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Attendance
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not mandatory
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Evaluation methods
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Oral exam
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