Course Description
Geographic Information Systems (GIS) are a set of powerful computerized tools designed to store, retrieve, analyze and display geographically referenced information. GIS are used to explore complex geographic relationships and discover patterns that were previously undetectable through conventional methods. GIS analysis has become important in many industries and provides students with employable skills in several fields of study. This hands-on course examines the components and functions of GIS, the characteristics of spatial data, and spatial analysis and display. Students will be introduced to GIS theory which will be reinforced with hands-on lab exercises.
Course Content
- Introduction to Geographic Information Systems
- How GIS is Affecting Our Lives
- What is a GIS?
- Introduction to ArcGIS software
- GIS and Cartography
- Map and Attribute Information
- Map Scale and Projections
- Coordinate Systems
- Geographic Information
- Cartographic Process
- Characteristics Of Spatial Data
- Vector Data and Raster Data
- Remotely Sensed Imagery
- Geodata Accuracy and Precision
- Error and Uncertainty in GIS
- Acquiring Spatial Data in situ
- Global Positioning Systems
- Land Surveying
- Census and Sampling
- Introduction to Remote Sensing
- Satellite Characteristics
- Electromagnetic Radiation
- Active vs. Passive Sensors
- Spatial, Temporal and Spectral Resolution
- Database Management
- Database Structure
- Spatial Databases
- Searching by Attribute
- Searching by Geography
- Basic Queries
- Spatial Analysis
- Basic Analysis (Buffering, Overlays, Interpolation)
- Surface Analysis
- Network Analysis
- Statistical Analysis
- GIS Output
- Map Design Principles
- Map Elements
- Reports, Graphs and Tables
- Web Maps
Learning Activities
The course will employ a variety of instructional methods to accomplish its objectives, including some of the following:
- Lecture
- Labs
- Multimedia
- Individual and/or Team Projects
- Small Group Discussions
Means of Assessment
Assessment will be based on course objectives and will be carried out in accordance with the ÁñÁ«ÊÓƵ Evaluation Policy. The instructor will provide a written course outline with specific criteria during the first week of classes.
An example of a possible evaluation scheme would be:
| Labs |
25% |
| Quizzes |
20% |
| Midterm Exam |
25% |
| Final Exam |
30% |
| Total |
100% |
Learning Outcomes
At the conclusion of the course, the successful student will be able to:
- Describe the components and uses of an effective GIS.
- Describe the characteristics of spatial data and explain how projection, coordinate and datum systems impact GIS precision and accuracy.
- Use the components of a GIS to input data, create topology, analyze data and produce maps to communicate the results of the analyses.
- Employ critical thinking skills to evaluate data, analytical methods and results.
- Compare and contrast file and database management systems.
- Analyze the issues associated with the implementation, operationalization and management of GIS.
- Explain the issues of data acquisition, data quality and data conversion/integration.
Textbook Materials
Texts will be updated periodically. Typical examples are:
- Bolstad, P. (2022). GIS Fundamentals: A First Text on Geographic Information Systems, Seventh Edition. XanEdu.
- Chang, K. (2014). Introduction to Geographic Information Systems, 7th edition. McGraw-Hill.
- Gorr, W. & Kurland, K. (2021). GIS Tutorial for ArcGIS Pro 2.8, Fourth Edition. ESRI Press.
- Heywood, I., Cornelius, S. and Carver, S. (2011). An Introduction to Geographical Information Systems, 4th edition. Pearson/Prentice Hall.
- Jensen, J.R. and Jensen R.R. (2013). Introductory Geographic Information Systems. Pearson.
- Law, M. and Collins, A. (2021). Getting to Know ArcGIS Pro, Fourth Edition. Redlands, CA: ESRI Press.
- Longley, P., Goodchild, M.F., Maguire, D.J., and Rhind, D.W. (2015). Geographic Information Science and Systems, Fourth Edition. Wiley.