![]() Understand the conceptual and practical limitations and advantages of RS and GIS.Demonstrate a working knowledge of GIS and RS software capabilities.Describe and communicate analytical findings to a non-technical audience.Undertake basic remote sensing operation such as classification and rectification.Understand the concept of the different resolution of remote sensing.Understand the electromagnetic spectrum and its relevance to remote sensing. ![]() Conduct spatial and logical queries on geospatial data.Develop conceptual designs for GIS databases.Understand concepts of position and scale.Demonstrate an understanding of geospatial data, and how it is used.Upon completion of the course, students should be able to: The goal of the course is to provide students with the theory and the application of geospatial data, specifically within a GIS and remote sensing framework. Each student will also be required to apply and integrate various GIS and RS operations involving spatial analysis, requiring some time outside of class hours. The Lab components involve “hands-on” use of an analytical software package to complete GIS and remote sensing exercises. General information on geospatial data principles and GPS technologies will also be covered. With respect to remote sensing, it covers the basics of the electromagnetic spectrum, digital remote sensing systems, classification and accuracy assessment. ![]() With respect to GIS, it covers an overview of general principles of GIS, analytical use of spatial information, and practical experience in map production. UFOR 511 is an introductory graduate-level course, which covers the use and application of remote sensing, GIS, GPS and spatial data analysis. ![]()
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