Design for Six Sigma, Chapter 3 - Product Development Process and Design for Six SigmaHere is a chapter from an updated Design for Six Sigma, Second Edition, which has extensive new chapters and learning modules on innovation, lean product development, computer simulation, and critical parameter management--plus new thread-through case studies. This updated edition provides unrivalled real-world product development experience and priceless walk-throughs that help you choose the right design tools at every stage of product and service development. The book includes detailed directions, careful comparisons, and work-out calculations that make every step of the Design for Six Sigma process easier. |
Contents
57 | |
59 | |
33 Lean Principles in Product Development | 71 |
34 Lean Product Development Approaches | 74 |
35 What Is Design for Six Sigma? | 86 |
36 Why Design for Six Sigma? | 89 |
37 Design for Six Sigma DFSS Phases | 91 |
38 More on Design Process and Design Vulnerabilities | 95 |
39 Differences between Six Sigma and DFSS | 97 |
310 What Kinds of Problems Can Be Solved by DFSS? | 99 |
311 Design for a Six Sigma DFSS Company | 101 |
Appendix Historical Development in Design | 103 |
Common terms and phrases
A3 report achieve analysis array axiomatic design axioms companies create CTSs customer domain design changes design entity Design for Six design parameters design practice design principles design process design solution design vulnerabilities DFSS project DFSS strategy DFSS theory DMAIC domain Functional domain Physical evaluation example Functional domain functional requirements gate review hierarchical design deployment Huthwaite illustrated in Fig improve information and knowledge information mining information transformation knowledge and information lean knowledge lean manufacturing lean product development Lean task management manufacturing process matrices methods Morgan and Liker nonsignificant factors nonvalue-added optimization performance phase potential problem Process domain process variables product design product development approach product development process product value Quality function deployment queue system queuing theory reduce robustness server set-based design Six Sigma capability stage gate process subsystems Taguchi tion tolerance Toyota product development TRIZ V-Comm Visible knowledge waste category