Quality Strategy for Research and Development
| Year of publication: |
2013
|
|---|---|
| Authors: | Shiu, Ming-Li |
| Other Persons: | Jiang, Jui-Chin (contributor) ; Tu, Mao-Hsiung (contributor) |
| Publisher: |
Hoboken : Wiley |
| Subject: | Produktqualität | Product quality | Qualitätsmanagement | Quality management | Entwicklungsländer | Developing countries |
Online Resource
| Extent: | Online-Ressource (382 p) |
|---|---|
| Series: | |
| Type of publication: | Book / Working Paper |
| Language: | English |
| Notes: | Description based upon print version of record Cover; Title page; Copyright page; Dedication; Contents; Foreword; Preface; 1: Introduction to Quality by Design; 1.1 What is Quality?; 1.2 Why Quality by Design?; 1.3 How to Design for Quality; 1.4 New Product Development and QFD; 1.4.1 Reflections on the Development of QFD; 1.4.2 Reflections on the Evolution of NPD Philosophy; 1.5 Technology Development and Functionality Design; 1.6 Outline of This Book; PART I: Optimizing Design for Function; 2: Quality Function Deployment; 2.1 Historical Development and Definition of QFD; 2.2 The Nature of QFD; 2.3 Benefits of QFD 2.4 Two Dominant Approaches to QFD2.4.1 Akao's Matrix of Matrices Model; 2.4.2 The Four-Matrix Model; 2.5 Shortcomings of QFD; 2.6 Review Comments on QFD; 2.6.1 Comments on QFD's Development Trends and Evolutions; 2.6.2 Comments on QFD's Shortcomings; 2.6.3 Comments on QFD's Applications; 2.7 Concluding Remarks; 3: Expanded System of QFD; 3.1 Overview of EQFD System and Its Implementation Process; 3.2 Thirty-Six Steps of the EQFD Implementation Process; I. Business and Product Planning; II. Technology Development Planning; III. Request for Quotation (RFQ); IV. Prototype Design V. Engineering Verification Test (EVT)VI. Design Verification Test (DVT); VII. Production Verification Test (PVT); VIII. Shop Floor Real-Time Management and Abnormality Management; 3.3 Reinforcement of EQFD for the Original QFD; 3.4 EQFD Application; 3.4.1 Quality Deployment; 3.4.2 Technology Deployment; 3.4.3 Cost Deployment; 3.4.4 Reliability Deployment; 3.4.5 Shop Floor Management; 3.4.6 Summary; PART II: Optimizing Design for Functionality; 4: R&D Paradigm; 4.1 R&D Strategy as Prediction and Prevention; 4.2 Conventional Approach to R&D; 4.3 R&D Paradigm Shift; 5: Functionality Evaluation 5.1 Energy Transformation and Technology Development5.2 Evaluation of Technology; 5.3 Signal-to-Noise Ratio; 5.3.1 Dynamic SN Ratio; 5.3.2 Static SN Ratio; 5.4 Comparative Assessment of Functionality; 5.4.1 Conventional Evaluation Indicators; 5.4.2 Using the SN Ratio; 5.5 Examples; 5.5.1 Two Measurement Systems; 5.5.2 Two Designs; 6: Functionality Design; 6.1 R&D and Robust Engineering; 6.2 Parameter Design for Robustness; 6.2.1 Key Concepts; 6.2.2 Key Tools; 6.2.3 Process Steps; 6.3 Common Problems of RE Application in Practice; 6.4 Robust Technology Development; 6.5 Case Studies 6.5.1 Optimization of a Current-Voltage Conversion Circuit6.5.2 Robust Engineering of a Voltage Adjustment Component; 6.5.3 Accuracy Engineering of a Measurement System; 6.5.4 Stability Engineering of a Cutting Machine; 6.5.5 Summary; 7: Managing for Paradigm Shift; 7.1 Winning Quality-Based Technology Leadership; 7.2 Key Success Factors; 7.2.1 Technical Aspect; 7.2.2 Managerial Aspect; 7.3 Benefit to the Organization; 7.4 Slogan or Strategy?; PART III: Integration Strategy; 8: Structure for Design Activity Integration; 8.1 Universal Roadmap and Nine Tools for Design Engineering 8.2 Integration of QFD and Other Breakthrough Strategies Electronic reproduction; Available via World Wide Web |
| ISBN: | 978-1-118-48763-1 ; 978-1-118-67266-2 |
| Source: | ECONIS - Online Catalogue of the ZBW |
Persistent link: https://www.econbiz.de/10011829303