Civil Engineering MSc
Principles of GIS GEOG5019
- Academic Session: 2023-24
- School: School of Geographical and Earth Sciences
- Credits: 10
- Level: Level 5 (SCQF level 11)
- Typically Offered: Semester 1
- Available to Visiting Students: Yes
Short Description
An introduction to the principles and practice of Geographic Information Systems.
Timetable
Generally, all classes are on one day of the week during the second half of Semester 1, normally Mondays. If numbers are large an additional practical session may be run on a different day.
Excluded Courses
GEOG4062 Geographical Information Systems
GEOG4111 GIS A: Applied Spatial Analysis
GEOG5084 Principles of GIS (Intensive)
Assessment
Continuous assessment consisting of a GIS practical task and associated report (40%); a 1½ hour examination (60%)
Main Assessment In: December
Course Aims
The course's combination of lectures and practicals will give participants the knowledge of the analytical and databasing concepts which will contribute to the specification of the design of a GIS, its implementation and appropriate use; and to develop an awareness of graphical methods of exploring and representing geospatial information in a typical GIS environment.
Teaching aims:
■ To describe the principles of geographic information systems (GIS)
■ To explain vector data structures and concepts, including point, line and polygon entities, attributes and topology
■ To explain raster data structures and concepts
■ To introduce several well-known GIS analytical tools
■ To introduce several applications of GIS
■ To explain how to design an efficient geospatial database
■ To build confidence in the use of one particular GIS package - ArcGIS
■ To encourage the use of help files and relevant web pages, etc., to develop the initiative and creativity which contribute to the transferable skill of problem solving in information technology.
Intended Learning Outcomes of Course
Having completed this course, students will be able to:
■ Explain the principles of GIS as a combination of geospatial data input, processing, output and personnel subsystems;
■ explain the requirements for co-ordinate reference systems in GIS and apply them within a GIS;
■ describe and critically assess the use of vector and raster representations of real world objects and how to convert between them;
■ describe and critically assess the use of analytical tools within GIS including overlay, buffer, network, and terrain analysis and how they are applied in the ArcGIS (or equivalent) environment;
■ explain the nature of geospatial databases and discuss their design and implementation;
■ solve application problems in GIS, including access to on-line help files;
■ produce effective maps and reports based on output of GIS processes;
■ apply acquired GIS skills to a range of applications.
Minimum Requirement for Award of Credits
Attendance at all practical sessions