Design of Experiments (DOE) for Engineers
Duration: 2 Days
June 24-25, 2013 (8:30 a.m. - 4:30 p.m.
) - Troy, Michigan
December 3-4, 2013 (8:30 a.m. - 4:30 p.m.
) - Troy, Michigan
Hotel & Travel Information
Design of Experiments (DOE) is a methodology that can be effective for general problem-solving, as well as for improving or optimizing product design and manufacturing processes. Specific applications of DOE include identifying proper design dimensions and tolerances, achieving robust designs, generating predictive math models that describe physical system behavior, and determining ideal manufacturing settings. This seminar utilizes hands-on activities to help you learn the criteria for running a DOE, the requirements and pre-work necessary prior to DOE execution, and how to select the appropriate designed experiment type to run. You will experience setting up, running, and analyzing the results of simple-to-intermediate complexity, Full Factorial, Partial Factorial, and Response Surface experiments utilizing manual methods as well as a hands-on computer tool that facilitates experimental design and data analysis. You will also receive an overview of Robust DOE, including the Taguchi DOE Method.
Participants will be given information on how to receive, install and configure a fully-functional 30-day trial version of Minitab for their use in class, and/or for their personal evaluation. While some computers will be available, attendees are encouraged to bring a laptop computer and/or a calculator to the seminar to provide additional hands-on time.
By attending this seminar, you will be able to:
- Decide whether to run a DOE to solve a problem or optimize a system
- Set-Up a Full Factorial DOE Test Matrix, in both Randomized and Blocked
- Analyze and Interpret Full Factorial DOE Results using ANOVA, (when
relevant) Regression, and Graphical methods
- Set-Up a Fractional (Partial) Factorial DOE, using the Confounding Principle
- Analyze and Interpret the results of a Fractional Factorial DOE
- Recognize the main principles and benefits of Robust Design DOE
- Decide when a Response Surface DOE should be run
- Select the appropriate Response Surface Design (either Plackett-Burman,
Box-Behnken, Central Composite, or D-Optimal)
- Interpret Response Surface Outputs
- Utilize the MiniTabTM Software tool to analyze data
Who Should Attend
This seminar will benefit engineers, designers and quality professionals in
research, design, development, testing and manufacturing who are interested or
active in one or more of the applications listed above. Individuals should have
an engineering degree or equivalent coursework in math, statistics and computers.
- Icebreaker: Team Problem Solving Exercise Using Engineering Judgment
- What is DOE?
- Types of Designed Experiments
- Application Examples
- Where DOE Fits in with Other Tools/Methods
- DOE Requirements: Before You Can Run an Experiment
- Writing Problem and Objective Statements
- Ensuring DOE is the Correct Tool
- Selecting Response Variable(s) and Experimental Factors
- Actual vs. Surrogate Responses
- Attention to Experiment Logistics
- Test Set-up and Data Collection Planning
- Selecting and Evaluating a Gage
- Full Factorial Experiments
- Introduction to Cube Plots for 3- or 4-factor 2-level Experiments
- Experiment Set-Up
- Factor Levels, Repetitions, and "Right-Sizing" the Experiment
- Experiment Terms to Estimate (Main Effects and Interactions)
- High-Level Significance Evaluation
- DOE Statistical Analysis
- ANOVA Principles for Simple Full Factorial Experiments -- Statistics Basics; Significance Test Methods; Effect of Non-Random Experiments; Estimating Significance Test "Power"; Confidence Intervals; Estimating Random Error
- Analysis Plots -- Normal and Half-Normal Plots; Main Effect and Interaction Plots
- Regression Analysis of Simple Full Factorial Experiments
- Using MiniTabTM for Full Factorial DOE Experiments
- Fractional (Partial) Factorial Experiments
- The Confounding Principle -- How it Works; What Information We Lose with Confounding (and why we might not care!)
- Selecting and Using Generators (Identities) to Set Up Confounding Strings
- Determining Which Factor Combinations to Run
- Analyzing Fractional Factorial Experiment Data
- Using MiniTabTM for Fractional Factorial Experiments
- Robust Design Experiments (Overview)
- What is Robustness?
- Control and Noise Factors
- Classical and Taguchi Robust DOE Set-Up
- Robustness Metrics
- Analytical and Graphical Output Interpretation
- Response Surface Modeling
- What Response Surface Models do BEST
- Available Response Surface DOEs (Plackett-Burman, Box-Behnken, etc.) -- Ideal Situation(s) to Use Each Response Surface DOE Type; Cube Plot Set-up of Each Response Surface DOE
- Analyzing Response Surface Experiment Data
- Methods for Finding Optimum Factor Values
- Using MiniTabTM for response Surface Experiments
- Miscellaneous Notes and Wrap-up
Instructor(s): Kevin Zielinski
Kevin Zielinski currently owns and operates Red Cedar Media LLC, a training and corporate communications consulting, design, development and delivery company based in Michigan. Previously, Kevin was Senior Applications Specialist for EDS (including General Motors/EDS and Hewlett Packard/EDS) specializing in technical training delivery, training consulting, courseware design and development, and e-Learning. He has designed, developed and delivered over 40 lecture- and web-based courses attended by General Motors and EDS employees worldwide. Mr. Zielinski has also served as Adjunct Professor for the Wayne State University College of Engineering and WSU/Focus:Hope for many years. His areas of expertise include: e-Learning design and development, Quality Tools and Methods (Design of Six Sigma, Robust Engineering, Design of Experiments (DOE), Statistical Tolerancing and GD&T); Design for Manufacturing and Assembly (DFMA); Engineering Economics; and Plant Floor Throughput Improvement. He has been an instructor for SAE Professional Development since 1990, and is a recipient of SAE's Forest R. McFarland Award (April 2005). He holds a bachelor's and master's degree in engineering from Wayne State University.
; SAE Members: $1045.00 - $1175.00
You must complete all course contact hours and successfully pass the learning assessment to obtain CEUs.
"Time well spent away from the office. I recommend this course to all recent college graduates in engineering."
"This course helped me to develop a good understanding of the DOE method and to apply it to real-world applications."
Senior Research Associate
University of Windsor
American Axle Manufacturing
"Kevin has a very strong grasp on this subject matter and his examples and exercises really enhance the learning process."
To register, click Register button at the top of this page and submit the online form, or contact SAE Customer Service at 1-877-606-7323 (724/776-4970 outside the U.S. and Canada) or at CustomerService@sae.org.
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