5. Process Improvement

5. Process Improvement - Detailed Table of Contents [5.]

Introduction [5.1.]
1. What is experimental design? [5.1.1.]
2. What are the uses of DOE? [5.1.2.]
3. What are the steps of DOE [5.1.3.]
Assumptions [5.2.]
1. Is the measurement system capable? [5.2.1.]
2. Is the process stable [5.2.2.]
3. Is there a simple model? [5.2.3.]
4. Are the model residuals well behaved? [5.2.4.]
Choosing an experimental design [5.3.]
1. What are the objectives? [5.3.1.]
2. How do you select and scale the process variables? [5.3.2.]
3. How do you select an experimental design? [5.3.3.]
  1. Completely randomized designs [5.3.3.1.]
  2. Randomized block designs [5.3.3.2.]
    1. Latin square and related designs [5.3.3.2.1.]
    2. Graeco-Latin square designs [5.3.3.2.2.]
    3. Hyper-Graeco-Latin square designs [5.3.3.2.3.]
  3. Full factorial designs [5.3.3.3.]
    1. Two-level full factorial designs [5.3.3.3.1.]
    2. Full factorial example [5.3.3.3.2.]
    3. Blocking of full factorial designs [5.3.3.3.3.]
  4. Fractional factorial designs [5.3.3.4.]
    1. A 2^3-1 design (half of a 2³) [5.3.3.4.1.]
    2. Constructing the 2^3-1 half-fraction design [5.3.3.4.2.]
    3. Confounding (also called aliasing) [5.3.3.4.3.]
    4. Fractional factorial design specifications and design resolution [5.3.3.4.4.]
    5. Use of fractional factorial designs [5.3.3.4.5.]
    6. Screening designs [5.3.3.4.6.]
    7. Summary tables of useful fractional factorial designs [5.3.3.4.7.]
  5. Plackett-Burman designs [5.3.3.5.]
  6. Response surface method designs [5.3.3.6.]
    1. Central Composite Designs (CCD) [5.3.3.6.1.]
    2. Box-Behnken designs [5.3.3.6.2.]
    3. Comparisons of response surface designs [5.3.3.6.3.]
    4. Blocking a response surface design [5.3.3.6.4.]
  7. Adding centerpoints [5.3.3.7.]
  8. Improving fractional design resolution [5.3.3.8.]
    1. Mirror-Image foldover designs [5.3.3.8.1.]
    2. Alternative foldover designs [5.3.3.8.2.]
  9. Three-level full factorial designs [5.3.3.9.]
  10. Three-level, mixed level and fractional factorial designs [5.3.3.10.]
Analysis of DOE data [5.4.]
1. What are the steps in a DOE analysis? [5.4.1.]
2. How to "look" at DOE data [5.4.2.]
3. How to model DOE data [5.4.3.]
4. How to test and revise DOE models [5.4.4.]
5. How to interpret DOE results [5.4.5.]
6. How to confirm DOE results (confirmatory runs) [5.4.6.]
7. Examples of DOE's [5.4.7.]
  1. Full factorial example [5.4.7.1.]
  2. Fractional factorial example [5.4.7.2.]
  3. Response surface model example [5.4.7.3.]
Advanced topics [5.5.]
1. What if classical designs don't work? [5.5.1.]
2. What is a computer-aided design? [5.5.2.]
  1. D-Optimal designs [5.5.2.1.]
  2. Repairing a design [5.5.2.2.]
3. How do you optimize a process? [5.5.3.]
  1. Single response case [5.5.3.1.]
    1. Single response: Path of steepest ascent [5.5.3.1.1.]
    2. Single response: Confidence region for search path [5.5.3.1.2.]
    3. Single response: Choosing the step length [5.5.3.1.3.]
    4. Single response: Optimization when there is adequate quadratic fit [5.5.3.1.4.]
    5. Single response: Effect of sampling error on optimal solution [5.5.3.1.5.]
    6. Single response: Optimization subject to experimental region constraints [5.5.3.1.6.]
  2. Multiple response case [5.5.3.2.]
    1. Multiple response: Path of steepest ascent [5.5.3.2.1.]
    2. Multiple response: The desirability approach [5.5.3.2.2.]
    3. Multiple response: The mathematical programming approach [5.5.3.2.3.]
4. What is a mixture design? [5.5.4.]
  1. Mixture screening designs [5.5.4.1.]
  2. Simplex-lattice designs [5.5.4.2.]
  3. Simplex-centroid designs [5.5.4.3.]
  4. Constrained mixture designs [5.5.4.4.]
  5. Treating mixture and process variables together [5.5.4.5.]
5. How can I account for nested variation (restricted randomization)? [5.5.5.]
6. What are Taguchi designs? [5.5.6.]
7. What are John's 3/4 fractional factorial designs? [5.5.7.]
8. What are small composite designs? [5.5.8.]
Case Studies [5.6.]
1. Eddy Current Probe Sensitivity Case Study [5.6.1.]
  1. Background and Data [5.6.1.1.]
  2. Main Effects [5.6.1.2.]
  3. Interaction Effects [5.6.1.3.]
  4. Main and Interaction Effects: Block Plots [5.6.1.4.]
  5. Estimate Main and Interaction Effects [5.6.1.5.]
  6. Modeling and Prediction Equations [5.6.1.6.]
  7. Intermediate Conclusions [5.6.1.7.]
  8. Important Factors and Parsimonious Prediction [5.6.1.8.]
  9. Validate the Fitted Model [5.6.1.9.]
  10. Using the Fitted Model [5.6.1.10.]
  11. Conclusions and Next Step [5.6.1.11.]
  12. Work This Example Yourself [5.6.1.12.]
2. Catapult Case Study [5.6.2.]
  1. Background and Data [5.6.2.1.]
  2. Main Effects [5.6.2.2.]
  3. Interaction Effects [5.6.2.3.]
  4. Estimate Main and Interaction Effects [5.6.2.4.]
  5. Model Selection Criterion [5.6.2.5.]
  6. Best Settings [5.6.2.6.]
  7. Conclusion and Summary [5.6.2.7.]
  8. Conclusions and Next Step [5.6.2.8.]
  9. Work This Example Yourself [5.6.2.9.]
A Glossary of DOE Terminology [5.7.]
References [5.8.]