Geographic Information Systems - Advanced Diploma

GIS 316 Introduction to CAD for GIS Professionals. This course provides an introduction to Autodesk's computer-assisted design and drafting software for GIS students. Students will learn the fundamentals of the drafting environment, including setting up their workspace, utilizing common tools, creating and modifying entities and text, and crafting print layouts. AutoCad Map3D will be explored for LiDAR data manipulation. This course will frequently touch upon the differences and similarities of CAD and GIS as well as when and how GIS professionals may use CAD in their career and how transitions between the two environments may occur. By the end of the course students should gain appreciation of the complementary technology that CAD offers alongside GIS

GIS 318 Cartography and Geovisualization is the art and science of map making and map use. Preparation of high quality maps that readily reveal land management, planning, environmental or other concerns is critical to ensure that important messages are conveyed in an easily interpretable fashion. This course introduces the concepts and methods of cartographic communication, design, and geovisualization. Mapping fundamentals will address subjects such as coordinate systems, projections, datums, cartographic generalization, map types, and map design considerations. All cartographic principles and practices will be examined in relationship to GIS and other geospatial technologies. We will use ArcGIS software to complete most of the activities.

GIS 329: Principles of Programming for GIS assumes no prior programming knowledge. Students will learn how to set and use variables, write and import modules, and use selection and repetition to control program flow as implemented in the Python language. At a more advanced level, students will learn to write programs that embed functions and object-oriented programming (OOP) concepts such as the use of objects, properties, and methods. Topics of scripting in Python and the usage of ESRI's ArcPy module for the automation of geoprocessing and mapping tasks will be introduced.

GIS 390 Applied Research Methods involves the design and planning of a project idea from initial concept to anticipated final outputs. Topics include an overview of the steps necessary to successfully integrate GIS into the project decision-making process. Specific skills will be developed in project scoping and research proposal development, reference material management, and project presentation methods, including oral, poster, and written project documents. This course is a prerequisite for Co-op 301, GIS 491, and GIS 492.

GIS 321 New Media for GIS. In our continually evolving digital world, employers and clients often expect GIS graduates to have an online presence. We need a venue to showcase what we do and what we are capable of, and how we format and present our online portfolio can be make or break a new position or contract award. This New media course consists of a series of workshops designed to build digital presentation and presence skills using some popular New media tools, graphics editors, video editing software, websites and blogs plus additional freeware social media tools like Twitter and LinkedIn. At the end of this course students will have built their own websites hosting creative self-produced media and begun the process of building an online GIS network to begin or further their GIS careers.

GIS 323 Introduction to Global Navigation Satellite Systems and Unmanned Aerial Vehicles will first introduce the fundamental concepts of Global Navigation Satellite Systems with specific emphasis on Global Positioning System (GPS) and the applied technologies for GPS data collection and GIS integration. Through interactive instruction and hands-on course exercises, students will work with a variety of GPS tools and field collection techniques to learn how to create, edit, update and manage geographic information. Emphasis areas will include familiarity with GPS receivers, GPS processing software, data collection standards and cartography. The second part of the course will introduce Unmanned Aerial Vehicles (UAV) technology. More specifically, this includes introduction to photogrammetry, characteristics of images obtained from UAV, mission planning, acquiring images using UAV and digital image processing. Students will work on series of assignments to get the hands on experience on data acquisition and image processing.

GIS 325 Internet Mapping investigates the full range of Internet and intranet mapping, including static maps, online data, and web map (image) and feature services. Most of the emphasis of the course will be on the use of ESRI's ArcGIS Server software to serve maps over the Internet. Free mass media applications Google Earth and Google Map applications will be introduced. Web map OpenGIS Consortium standards and freeware server and viewer software will be discussed. The course curriculum will be delivered using lectures and hands-on class exercises. Students will author, administer, design and manage interactive Web Mapping projects through a number of lab assignments, and through a term project. The term project will be the development of a site which will be served through the campus intranet and/or through the SGRC public server. The course requires prior knowledge of GIS theory, BC datasets, and ArcGIS software which students have previously acquired in ADGIS courses GIS 302, 303, 310 and 318.

In GIS 331 Advanced GIS Application we will learn about and practice applying GIS to spatial problems; arguably one of the most challenging parts of putting this powerful technology into action. We will focus on GIS for Health Analysis as well as other applications of GIS (such as crime analysis) by utilizing sophisticated analysis techniques including hotspot analysis, Getis-Ord G* statistic, exploratory regression, Ordinary Least Squares (OLS) and Geographically weighted regression (GWR).