A rigorous study of fundamental GIS principles, including the nature of spatial data, vector and raster data models, and key GIS analysis operations.
A variety of workshops on special topics within the discipline. Goals and objectives will emphasize the acquisition of general knowledge and skills in the discipline.
Update skills and knowledge of professionals in the discipline. Goals and objectives will be specifically directed at individual professional enhancement rather than the acquisition of general discipline knowledge or methodologies. S/U or letter graded.
Examine statistical techniques useful to the analysis of geographical data. Covers descriptive statistics, probability, statistical inference, hypothesis testing, statistical modeling and spatial statistics.
Examine a selected area of systematic geography; consider appropriate pedagogical approaches in teaching about that geographic topic.
Identify meaningful patterns in the distributions of plants and animals and explain how/why those patterns developed. Includes an examination of the role humans have played in shaping those patterns.
Students will learn the conceptual foundations and technical skills to apply remote sensing in environmental and cultural applications. Topics will include land use/land cover classification, change detection, and vegetation modeling.
Students will learn the conceptual foundations and technical skills to apply remote sensing in environmental and cultural applications. Topics will include land use/land cover classification, change detection, and vegetation modeling.
This course covers the principles, structure, development, and application of geodatabases. It provides hands-on training in the design, development, and operation of enterprise geodatabases.
Web GIS development using ArcGIS Online, JavaScript, and html. Management of IIS websites for the delivery of REST and related GIS web services.
GEOG 412 or previous experience with Web GIS recommended.
Advanced study of geographic techniques. Topics will relate to applications in GIS, remote sensing, quantitative analysis, land use analysis, or the mapping sciences.
This course will develop advanced skills for geospatial programing. Topics include applying programing to automate processing tasks, interact with map elements, manipulate batches of GIS data, and create basic user interfaces.
GEOG 327 or previous experience with programming recommended.
Study and apply techniques used, solve geographic problems in the field and effectively present results of such studies.
Individualized investigation under the direct supervision of a faculty member. (Minimum of 37.5 clock hours required per credit hour.)
Internship in a public agency or private firm to provide professional experience under the supervision of an area specialist. S/U graded.