Computer Science/Geography 70
Introduction to Raster-Based GIS


Instructor: Jeff Tolhurst, Ph.D.
Office: Sugar Pine 119 and Fir 6
Office Hours: TuTh 8:40-9:40am in Sugar Pine 119; W 10:20-11:20 (SUG 119) and MW 4:30-5:30 pm in Fir 6 or by appointment
Phone: (209) 588-5235 office (+ msg); (209) 588-5104 (fax)
Email: tolhurstj@yosemite.edu
Course Credit: 3 semester hours
Prerequisites: None (CmpSc/Geogr 59, 60, or 65 highly recommended)
Day and Time: Monday 5:30-8:35 pm
Room: Fir 1
Text:
GIS Commons: A Free, Opensource, Introductory Textbook on Geographic Information Systems by Dr. Michael Schmandt: GIS Commons

 

Calendar


Class Notes, Resources, and Activities Page


I. Course Description:

This course uses the ArcGIS ArcView software along with the Spatial Analyst and 3D extensions to explore the use of raster GIS data in analysis and visualization. Topics include terrain analysis, hydrologic analysis, suitability analysis, and 3D modeling. The course consists of a combination of lectures, demonstrations, hands-on exercises, and a student project. Credit may be earned for only one of the following: CMPSC 70 or GEOGR 70.

II.  Course Objectives: 

Upon completion of this course each student should be able to: 

1. Display GIS raster data on screen. Change the geographic region and resolution of the display. Overlay multiple GIS layers on screen. Display both raster and vector data on screen. Change and manipulate geospatial data color and symbology.
2. Convert data between raster and vector formats.
3. Derive information from raster GIS layers by using spatial analysis and geoprocessing tools.
4. Perform reclassification functions. Create and use a "mask".
5. Understand and perform basic mathematical manipulations of raster maps (ie. map addition, subtraction, etc.)
6. Create digital elevation models by importing USGS DEM files. Patch digital elevation files together in a larger layer. Fill gaps in data.
7.  Create slope and aspect maps from digital elevation data. Create 3D views.
8. Import and register digital images. Use filtering techniques to enhance the image. Perform unsupervised classification of the image.
9. Demonstrate familiarity with GIS concepts and commands by successfully completing written and practical exams.
10. Work with satellite imagery in ArcGIS and use advanced display options in ArcGIS with the Image Analysis extension.

11. Design a raster GIS project to collect, organize, manipulate, and analyze raster data, then give a presentation and communicate findings to peers.

12.
Work collaboratively in the computer lab with others in the class to help one another learn raster GIS concepts and computer skills.
13. Acquire an appreciation of what raster GIS is, and what it can be used for.         


Student Learning Outcomes:

· By the end of the course you will be able to collect, compile, organize, transform, analyze, and make intelligent geospatial decisions from analyzing raster, vector, and attribute data.

· By the end of the course you will have worked cooperatively with a small group of peers to design and present a raster GIS research project to the public.

· By the end of the course you will learn to summarize scientific concepts using a scientific/technical writing style.



III.
Course Content:


Each of the following units will require somewhat less than one week to complete and will require a minimum of 3 hours per week of outside of class work.  It is likely that individual students will need additional time to work on computers during open lab time, since computer courses characteristically are very time consuming. 

IV. Representative Text(s): 

            1. GIS Commons: A Free, Opensource, Introductory Textbook on Geographic Information Systems by Dr. Michael Schmandt: GIS Commons

V.  Basic Method(s) of Instruction: 

            1.  Lecture and computer time will be intermixed as needed.  Basic fundamentals of GIS and Raster GIS will be covered by lecture, demonstrations, and tutorials/exercises. 

            2.  Students will learn to use ArcGIS software and the Spatial and Image Analyst tools to organize, pre-process and process, analyze, and present raster-based data in a project-driven, peer-reviewed format.

            3.  Student projects will be highly directed at first, then evolve into autonomous ventures by the end of the semester.  Each student earning 3 units of credit will design and carry out a culminating project to be presented to peers during the final week of class. 

VI. Method(s) of Evaluation: 

1. Lecture and lab activities will be turned in for credit and concepts and processes will be summarized in written abstracts; GIS and raster-based GIS concepts will be covered on the test; the project will be assessed on an individual basis, to be turned in toward the end of the semester (see below).

2. Grades:
 

In Class Assignments & Activities 20%
Exam 40%
Project 40%

3. Lab exercises and in class work is essential to your success and is your individual responsibility to complete in a timely fashion. I expect you to ask for assistance when needed.

Note: A grading curve will not be used to determine grades. Grades will be determined as follows:

A 90-100%
B 80-90%
C 70-80%
D 60-70%
F < 60%

Project Guide

Objectives
:

  1. You will demonstrate organizational, communication, and critical thinking skills during your presentation.
  2. You will present research findings/conclusions using a combination of media forms your peers and instructor (research and format are described below).
  3. You will demonstrate competence with applying GIS and raster-based GIS knowledge and skills acquired during this course.

Background:

Multimedia presentations are becoming increasingly popular due to their effectiveness in communicating information. Computer programs that incorporate video, audio, textual, graphic, animated, and other media forms are rapidly becoming mainstream in business, scientific, and educational applications. Research has shown that people acquire knowledge and information in a variety of modalities (eg. visually, auditorally, kinesthetically, etc.). In order to effectively communicate your research to your fellow classmates, you will design a project that uses more than one media form (i.e. video, slides, audio tape, text, posters, manipulatives, models, dramatic presentations, musical presentations, etc.). Remember, you are trying to: 1) learn new information; and 2) effectively communicate that information to others.

Expectations:

1. Project Ideas:
A) pick a concept where a GIS can be used in the decision-making process;
B) think carefully about the scope and sequence of the project (can you complete it by the end of the semester? and in what order will you carry out the tasks that need to be done?)

2. Past Student Topics:
A) Viewshed Analyses for Potential Real Estate Buyers in Calaveras County
B) Erodability Potential for Roads Within the North Fork of the Tuolumne River Watershed, Stanislaus National Forest
C) 3D Bathymetric Map of San Diego Reservoir, Columbia College Campus, Sonora, California
D) Using Unsupervised Classification to Determine Management Driven Stand Types, Stanislaus National Forest
E) Elementary School Site Selection for Manteca Unified School District
F) Assessing Meadow Health in the Stanislaus National Forest Using Supervised and Unsupervised Classification Techniques
G) Assessing Fire Hazards On and Around the Columbia College Campus Using Remote Sensing and Other Raster-Based GIS Techniques
H) Assessing Land Use Changes near Sonora, California, Using Raster and Remote Sensing GIS
I)
Alternative Emergency Access Roads for Columbia College

These topics are intended to motivate you to generate your own ideas. Make sure the scope and sequence of your topic is manageable for the given time allotment.

3. Project Format:
A) should have an Abstract (see rules for writing an Abstract below)
i) a concise, informative summary/statement of conclusions reached
ii) not more than 150 words
iii) turned in to me at the beginning of the presentation

B) should have two or more forms of the following media in the presentation:
i) computer simulation, computer maps, audio, video, slides, models, etc.

C) should have a list of references cited (listing each source of information used
; use the online citation machine to cite your sources: EasyBib)
i) any statement that is not general knowledge needs to be credited
ii) do not just use encyclopedias and textbooks
iii) use primary (scientific journals, interviews with researchers) and secondary sources (books and review articles that deal with a specific topic)

D) should be professional (clear, audible, legible, neat, high quality, etc.)

E) Use the following file organization structure for your projects: Standard Directory Structure for Projects

Deliverables:
1. Presentations:
A) Each presentation will be 9 to 10 minutes in length with time for questions afterward from the class
B) Each presentation will be evaluated by the members of the class on a standardized evaluation form to be provided
C) You will turn in a digital copy of your powerpoint presentation along with the project folder with all of your subfolders including your data

2. Poster:
A) You will turn in a digital copy of your poster in pdf format with the following: 1) Title; 2) Purpose; 3) Problem; 4) Significance; 5) Methodology; 6) GIS Map/Content; and 7) Conclusions

Deadline:
This project is due to be presented on the date listed on the calendar during scheduled class time. All deliverables are due at that time.
(Peer evaluations will be due at the end of class, following presentations. Credit may be given for completing evaluations.)

Support:
1. Research
A) In the library there are books and technical publications on many topics; check the catalog or ask a reference librarian for assistance.
B) Online resources are available for research purposes. This will be one of your most valuable resources. See me if you need help searching for information on the web.
C) Within the community there are several professionals with strong interests in GIS and GPS. Call them up for ideas, resources, answers to questions, etc.
D) Other students and faculty at Columbia College may be able to help guide your search.
E) I'll be able to provide a certain amount of support and guidance - use me as a resource.

2. Materials
A) Columbia College may be able to provide some materials on a check out basis, otherwise see me if you need support in this area.
B) The College has a data projector and access to a computer and multimedia software (i.e. Powerpoint or Google Documents (Presentation)).

Remember - the main goal is learn something new while becoming familiarized with Geographic Information Systems and Raster-Based GIS and to present your findings to others in the class. Pick something interesting and fun - and enjoy being creative with this project!


Proposal Outline
Proposal Example 1
Proposal Example 2


Computer Science 70 Exam

Directions: Please answer the question below for the exam. Limit your responses to one side of one piece of paper. Use diagrams and examples to clarify your descriptions and explanations. Follow the grading rubric below for guidance. I will review any rough drafts of your responses up to the weekend before the midterm due date if you’d like me to.

Exam Examples (for organization/format)

Here is the exam question:

1. Explain, in your own words, what Raster GIS is and how it works. Include in your response a discussion of the raster data model and types of raster data. Also include a discussion of modeling and solving spatial problems, geoprocessing functions and spatial analyses, image classification/analysis, and map algebra. Discuss limitations to Raster GIS as well (accuracy issues, quality, resolution, errors, etc.).  Also discuss and give examples of different applications for which Raster GIS is used.

Grading Rubric

High-quality responses contain:

• an overview of what you’ll discuss including a statement defining the main point
• specific examples showing depth of knowledge and supporting your ideas
• 2 or more carefully labeled diagrams depicting important processes
• accuracy, clarity, and precision when discussing content
• good organization, well-developed arguments, few mechanical errors
• a conclusion/summary statement

Medium-quality responses contain:

• an overview of what you’ll discuss
• a general example supporting your ideas
• one or more diagrams poorly labeled
• some inaccurate, unclear, imprecise statements about content being discussed
• loosely organized thoughts, moderately developed arguments, some mechanical errors
• a poor conclusion/summary statement

Lower-quality responses contain:

• no (or a poor) introductory overview
• no (or minimal) examples supporting your ideas
• no diagrams, or diagrams with no labeling
• multiple inaccurate statements of the content discussed
• disorganized thoughts, weakly developed arguments, some mechanical errors
• no conclusion/summary statement

Lowest-quality responses contain:

• no overview
• no examples
• no diagrams
• many inaccurate statements of content
• unorganized, undeveloped arguments, mechanical errors throughout
• no conclusion/summary statement


“For students with disabilities, (i.e. physical, intellectual, emotional, social, spiritual, occupational, financial, etc., in nature), who believe that they may need special accommodations in this class, I encourage you to discuss options with me within the first 10 days of instruction