City University of Hong Kong Course Syllabus offered by Department [PDF]

May 10, 2016 - Statistical Design and Analysis of Experiments. Course Code: SEEM4110. Course Duration: One Semester. Cre

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City University of Hong Kong Course Syllabus offered by Department of Systems Engineering and Engineering Management with effect from Semester A 2015/16

Part I

Course Overview

Statistical Design and Analysis of Experiments Course Title:

SEEM4110 Course Code:

One Semester Course Duration: 3 Credit Units:

B4 Level: Arts and Humanities Proposed Area: (for GE courses only)

Study of Societies, Social and Business Organisations Science and Technology

Medium of Instruction:

English

Medium of Assessment:

English

(Course Code and Title)

MEEM3062 (offered until Semester A 2011/12) / SEEM3062 Quality Engineering I/ SEEM3102 Quality Engineering

Precursors:

Nil

Prerequisites:

(Course Code and Title)

(Course Code and Title)

MEEM4062 Quality Engineering II / SEEM4062 Quality Engineering II

Exclusive Courses:

Nil

Equivalent Courses:

(Course Code and Title)

1 SEEM4110_SYL (R1) 10 May 2016

Part II 1.

Course Details

Abstract (A 150-word description about the course)

The aim of this course is to provide students with an understanding of process variability and advanced statistical methods in quality engineering. The principles and techniques of statistical modelling and reduction of process variability, and their practical implementation issues in product and service realization are introduced.

2.

Course Intended Learning Outcomes (CILOs) (CILOs state what the student is expected to be able to do at the end of the course according to a given standard of performance.)

No.

CILOs#

1.

Define the types of experimental design, and statistical analysis methods. Apply various types of experimental designs and experimental design principles to efficiently gather data to discover relationships between system parameters or optimize a complex system. Apply statistical analysis methods and model selection principles to correctly analyse experiments. Appreciate the application of statistical software package in data collection and analysis for quality problem solving. Design experiments and interpret results for specific industrial settings and quality problems.

2.

3. 4. 5.

Weighting* (if applicable)

Discovery-enriched curriculum related learning outcomes (please tick where appropriate) A1 A2 A3

10





30





30





10 20



* If weighting is assigned to CILOs, they should add up to 100%. 100% # Please specify the alignment of CILOs to the Gateway Education Programme Intended Learning outcomes (PILOs) in Section A of Annex. A1:

A2:

A3:

Attitude Develop an attitude of discovery/innovation/creativity, as demonstrated by students possessing a strong sense of curiosity, asking questions actively, challenging assumptions or engaging in inquiry together with teachers. Ability Develop the ability/skill needed to discover/innovate/create, as demonstrated by students possessing critical thinking skills to assess ideas, acquiring research skills, synthesizing knowledge across disciplines or applying academic knowledge to self-life problems. Accomplishments Demonstrate accomplishment of discovery/innovation/creativity through producing /constructing creative works/new artefacts, effective solutions to real-life problems or new processes.

2 SEEM4110_SYL (R1) 10 May 2016

3.

Teaching and Learning Activities (TLAs) (TLAs designed to facilitate students’ achievement of the CILOs.)

TLA Large Class Activities

Laboratory/ Tutorial Exercises

Project

4.

Brief Description Learning through teaching is primarily based on lectures. Mini-lectures and small-group exercises will be used to facilitate conceptual understanding and industrial applications of various statistical tools and techniques. The team-based exercises provide students with the opportunities to familiarize and apply the statistical tools learnt during the lectures through practical problem solving. The project will provide the students with the opportunity to design and conduct experiments, and analyse the collected data, for achieving specified product/ process improvement goals

CILO No. 1 2 √ √



3 √

4 √

5 √











Hours/week (if applicable) 26 hours/ semester

21 hours/ semester

5 hours/ semester

Assessment Tasks/Activities (ATs) (ATs are designed to assess how well the students achieve the CILOs.)

Assessment Tasks/Activities

CILO No. 1 2 % √ √ √ √

Continuous Assessment: 50 Midterm Project Assignments & Laboratory Work Examination: 50 % (duration: 2 hours) * The weightings should add up to 100%.

Weighting* 3

4

√ √ √

√ √

Remarks

5



25% 10% 15% 100%

For a student to pass the course, at least 30% of the maximum mark for the examination should be obtained.

3 SEEM4110_SYL (R1) 10 May 2016

 

5.

Assessment Rubrics (Grading of student achievements is based on student performance in assessment tasks/activities with the following rubrics.)

Assessment Task

Criterion

1.

2-hour test to assess students’ conceptual

Midterm

Excellent (A+, A, A-) High

Good (B+, B, B-) Significant

Adequate (C+, C, C-) Moderate

Marginal (D) Basic

Failure (F) Not even reaching marginal levels

High

Significant

Moderate

Basic

Not even reaching marginal levels

High

Significant

Moderate

Basic

Not even reaching marginal levels

Examination questions are designed to assess High student’s level of achievement of the intended learning outcomes, with emphasis placed on conceptual understanding and correct application, mostly through numerical calculation, of the various statistical design and analysis of experiments methodologies.

Significant

Moderate

Basic

Not even reaching marginal levels

understanding of experimental design methods and ability to correctly analyze experiment data.

2.

Project

The project assesses students’ ability to design and conduct experiments, and analyze the collected data, for achieving specified product/process improvement goals.

3.

Assignments & Lab work

Students’ ability to analyze data, apply relevant statistical tools, and draw informed conclusions about an experiment are assessed. Explanation and presentation of results are also assessed.

4.

Examination

The midterm, tutorial exercises and laboratory report will be numerically-marked, while examination will be numerically-marked and grades-awarded accordingly.

4 SEEM4110_SYL (R1) 10 May 2016

  Part III 1.

Other Information (more details can be provided separately in the teaching plan)

Keyword Syllabus (An indication of the key topics of the course).

       

Concept of process variability and its relevance to modern quality engineering Confidence interval and hypothesis testing Measurement system analysis : Gage R&R study Principles of experimental design Least squares regression Analysis of variance (ANOVA) Factorial and fractional factorial experiments, Response surface design

2. Reading List 2.1 Compulsory Readings (Compulsory readings can include books, book chapters, or journal/magazine articles. There are also collections of e-books, e-journals available from the CityU Library.)

1.

Mason, R.L., Gunst, R.F., and Hess, J.L. (2003). Statistical Design and Analysis of Experiments with Applications to Engineering and Science (2nd Edition). New York: John Wiley & Sons.

2.2 Additional Readings (Additional references for students to learn to expand their knowledge about the subject.)

1.

R. H. Myers, D. C. Montgomery and C. M. Anderson-Cook, Response Surface Methodology: Process and Product Optimization Using Designed Experiments, 3rd ed., Wiley, 2009. ISBN: 978-0-470-17446-3

2.

D.C. Montgomery, Design and Analysis of Experiments, 8th ed., Wiley, 2012

3.

D.C. Montgomery, Introduction to Statistical Quality Control, 7th ed., Wiley, 2012

4.

W.W. Hines & D.C. Montgomery, D.M. Goldsman, and C.M. Borror, Probability and Statistics in Engineering, 4th ed., Wiley, 2003

5.

A. Mitra, Fundamentals of Quality Control and Improvement, 3rd ed., Wiley, 2008

5 SEEM4110_SYL (R1) 10 May 2016

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