Course Form I. Summary of Proposed Changes Dept / Program Computer Science Course Title Pattern Recognition Prefix and Course # CSCI 448/548 Short Title (max. 26 characters incl. spaces) Summarize the change(s) proposed New course II. Endorsement/Approvals Complete the form and obtain signatures before submitting to Faculty Senate Office Please type / print name Signature Requestor: Douglas W Raiford Phone/ email : 243-5605 Douglas.raiford@umontana.com Program Chair/Director: Yolanda Reimer Other affected programs Dean: Date Chris Comer Are other departments/programs affected by this Please obtain signature(s) from the modification because of Chair/Director of any such department/ program (a) required courses incl. prerequisites or corequisites, (above) before submission (b) perceived overlap in content areas (c) cross-listing of coursework III: To Add a New Course Syllabus and assessment information is required (paste syllabus into section V or attach). Course should have internal coherence and clear focus. Common Course Numbering Review (Department Chair Must Initial): YES NO Does an equivalent course exist elsewhere in the MUS? Check all relevant disciplines if X course is interdisciplinary. (http://mus.edu/transfer/CCN/ccn_default.asp) If YES: Do the proposed abbreviation, number, title and credits align with existing course(s)? Please indicate equivalent course/campus. If NO: Course may be unique, but is subject to common course review. Be sure to include learning outcomes on syllabus or paste below. The course number may be changed at the system level. Proposed course number: CSCI U 448 (and G 548) Exact entry to appear in the next catalog (Specify course abbreviation, level, number, title, credits, repeatability (if applicable), frequency of offering, prerequisites, and a brief description.) U 448 Pattern Recognition 3 cr. Offered intermittently. Prereq., CSCI 232 (CS 241) or consent of instr. Introduction to the framework of unsupervised learning techniques such as clustering (agglomerative, fuzzy, graph theory based, etc.), multivariate analysis approaches (PCA, MDS, LDA, etc.), image analysis (edge detection, etc.), as well as feature selection and generation. Emphasis will be on the underlying algorithms and their implementation. Credit not allowed for both CSCI 448 and CSCI 548. Justification: How does the course fit with the existing curriculum? Why is it needed? We currently have a course in the CS curriculum called Machine Learning that covers supervised learning techniques utilized in the field of artificial intelligence. This proposed course will make a perfect complement to this course as it will cover unsupervised learning techniques. These techniques are extremely useful when performing exploratory data analysis on large datasets. This is a skill more and more in demand as data resulting from experimental trials continues to grow at increasing rates. Are there curricular adjustments to accommodate teaching this course? No Complete for UG courses (UG courses should be assigned a 400 number). Describe graduate increment - see procedure 301.30 http://umt.edu/facultysenate/committees/grad_council/procedures/default.aspx Complete for Co-convened courses Companion course number, title, and description (include syllabus of companion course in section V) See procedure 301.20 http://umt.edu/facultysenate/committees/grad_council/procedures/default.aspx. G 548 Pattern Recognition 3 cr. Offered intermittently. Prereq., CSCI 232 (CS 241) or consent of instr. Introduction to the framework of unsupervised learning techniques such as clustering (agglomerative, fuzzy, graph theory based, etc.), multivariate analysis approaches (PCA, MDS, LDA, etc.), image analysis (edge detection, etc.), as well as feature selection and generation. Techniques in exploratory data analysis when faced with large, multivariate datasets. Opportunities at implementation of some algorithmic approaches as well as use of preexisting tools such as the R-project statistics package. Emphasis will be on the underlying algorithms and their implementation. Credit not allowed for both CSCI 448 and CSCI 548. New fees and changes to existing fees are only approved once each biennium by the YES NO Board of Regents. The coordination of fee submission is administered by Administration and Finance. Fees may be requested only for courses meeting specific conditions according to Policy 940.12.1 http://mus.edu/borpol/bor900/940-12-1.pdf . Please indicate whether this course will be considered for a fee. If YES, what is the proposed amount of the fee? Justification: X IV. To Delete or Change an Existing Course – check X all that apply Deletion Title Course Number Change From: Level U, UG, G Co-convened To: Description Change Change in Credits From: To: Prerequisites 1. Current course information at it appears in catalog (http://www.umt.edu/catalog) From: To: Repeatability Cross Listing (primary program initiates form) Is there a fee associated with the course? 2. Full and exact entry (as proposed) 3. If cross-listed course: secondary program & course number 4. If co-convened course: companion course number, title, and description (include syllabus of companion course in section V) See procedure 301.20 http://umt.edu/facultysenate/committees/grad_council/procedures/default.aspx. 5. Is this a course with MUS Common Course Numbering? http://mus.edu/transfer/CCN/ccn_default.asp If yes, please explain below whether this change will eliminate the course’s common course status. 6. Graduate increment if level of course is changed to UG. Reference procedure 301.30: http://umt.edu/facultysenate/committees/ grad_council/procedures/default.aspx (syllabus required in section V) 7. Other programs affected by the change 8. Justification for proposed change YES NO Have you reviewed the graduate increment guidelines? Please check (X) space provided. V. Syllabus/Assessment Information Required for new courses and course change from U to UG. Paste syllabus in field below or attach and send digital copy with form. Syllabus for Pattern Recognition Pattern Recognition CSCI 448/548 Spring 2013 Course Machine Learning: CSCI 448/548 Time TBD Room TBD Instructor Dr. Douglas W. Raiford Office Social Science 412 Phone 406-243-5605 Email Douglas.Raiford@umontana.edu Office Hours TBD Instructor Website http://www.cs.umt.edu/~dougr/ Pattern Recognition Sergios Theodoridis and Konstantinos Koutroumbas Author’s Website Textbook Publisher: Academic Press; 3 edition (March 10, 2006) Language: English ISBN-10: 0123695317 ISBN-13: 978-0123695314 Grading Component Undergraduate Graduage Homework 10% 10% Quizzes 15% 10% Two Exams & Final 35% 35% Projects 40% 35% Grad Student Project NA 10% 90 - 100 ................................ A 87 - 89 .................................. B+ 80 - 86 .................................. B 77 - 79 .................................. C+ Scale: 70 - 76 .................................. C 67 - 69 .................................. D+ 60 - 66 .................................. D 00 - 59 .................................. F Course Objectives Prerequisites Instill in the students an understanding of where Pattern Recognition sits in the hierarchy of artificial intelligence and soft computing techniques Develop expertise in various unsupervised learning algorithms such as clustering techniques (agglomerative, fuzzy, graph theory based, etc.), multivariate analysis approaches (PCA, MDS, LDA, etc.), image analysis (edge detection, etc.), as well as feature selection and generation. Provide a tool-kit of pattern recognition problem solving approaches that the students can take with them for use in future research or other programmatic endeavors Provide the student with the ability to apply these techniques in exploratory data analysis. CSCI 232 Data Structures and Algorithms (or consent of instr.) 1. Introduction/definition of pattern recognition 2. Overview of supervised vs. unsupervised learning techniques 3. Clustering overview (categories, proximity measures, etc.) 4. Sequential clustering approaches 5. Hierarchical clustering approaches 6. Cost function optimization clustering approaches Topics 7. Probabilistic clustering approaches 8. Cluster validity metrics 9. Multivariate analysis techniques 10. Principal Components Analysis 11. Multidimensional scaling 12. Linear Discriminant Analysis 13. Image analysis techniques 14. Feature selection and generation Graduate students (attending CSCI 548) will have the added responsibility of completing a graduate level project. The motivation for this activity is to provide additional experience in the field of pattern recognition in such a way as to promote the students ability to synthesize new approaches based upon the concepts encountered within the course. The graduate level project will have three components to it: 1) Graduate Increment a data component 2) a code component 3) an analysis component. Around the 5th week of the course you must decide upon what you will do for your project, and submit a proposal. The ideal project is one where you already have some data (and/or a computational goal) that is part of your graduate research. In this way you will be applying pattern recognition techniques to data and analysis that will assist you in your thesis work. Policies The students attending this class are at the graduate level or are experienced undergrads, and are expected to perform at these levels. Assignment submissions should be on time. Failure to do so is an indication of poor time management and Late assignments lack of effort. While each case will be treated independently, and the situation will be discussed with the student, a penalty of roughly a letter grade per day late will be imposed on the assignment. Ethics in academic activities are important at the University of Montana. We wish to graduate students who are responsible, hard working, dependable, and who exhibit integrity and independence of thought. The assignments and exams given in this course are designed to reinforce your learning and measure your understanding the topics covered in class. As such, the work you turn-in should be your own, and no one else’s. Academic Dishonesty and the Honor Code Overly similar work will be considered to be the result of copying. If you collaborate with another person for a graded assignment as in the example activities noted above, all parties involved will receive a zero for that assignment. If there are further assignments in which you have collaborated, the matter will be turned over to the Dean of Academic Affairs for possible university imposed sanction. It is, therefore, imperative that if you need help on your assignments that you contact your instructor or TA and NOT someone else. The official University policies can be found in the Student Conduct Code. The Department of Computer Science is committed to equal opportunity in education for all students, including those with documented physical disabilities or documented learning disabilities. University policy states that it is the responsibility of students with documented disabilities to contact instructor DURING THE FIRST WEEK OF THE SEMESTER to discuss appropriate accommodations to ensure equity in Accommodations grading, classroom experiences, and outside assignments. The instructor will meet with the student and the staff of the Disability Services for Students (DSS) to make accommodations. Please contact Jim Marks in DSS (243.2373, Lommasson Center 154) for more information. Religiously observant students wishing to be absent on holidays that require missing class should notify their Religious observances professors in writing at the beginning of the semester, and should discuss with them, in advance, acceptable ways of making up any work missed because of the absence. Students participating in an officially sanctioned, scheduled University extracurricular activity will be given the opportunity to make up class assignments or other graded Excused Absences for assignments missed as a result of their participation. It is the University responsibility of the student to make arrangements with the Extracurricular Activities instructor prior to any missed scheduled examination or other missed assignment for making up the work. VI Department Summary (Required if several forms are submitted) In a separate document list course number, title, and proposed change for all proposals. VII Copies and Electronic Submission. After approval, submit original, one copy, summary of proposals and electronic file to the Faculty Senate Office, UH 221, camie.foos@mso.umt.edu. Revised 5-4-11