協同產品開發流程之建模與分析：
發展與應用一延展式設計結構矩陣
指導教授：高 信 培 博士

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蘇小茹(Hsiao-Ju Su) 查詢紙本館藏

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工業管理研究所

論文名稱

協同產品開發流程之建模與分析：發展與應用一延展式設計結構矩陣指導教授：高信培博士
(Modeling and Analysis of the Collaborative ProductDevelopment Process: Development and Application ofExtended Design Structure Matrix )

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摘要(中)

縮短新產品開發專案的時程為現今設計鏈之研究趨勢，藉由最佳化新產品開發之流程，減少不必要的資訊遞迴以達成時間之減省，設計結構矩陣(DSM)為一有效之管理工具，DSM以往被應用於新產品開發專案之管理。
然而，由於資訊科技發達，新產品開發之型態逐漸由傳統面對面溝通演變為透過網路進行協同設計，跨公司的設計協同模式(CCDC)應運而生；在此模式下，新產品開發專案的複雜度相對提高，參與設計的專案成員散佈在世界各地。設計結構矩陣也無法適用於跨公司設計協同模式上，基於此原由，本研究以跨公司設計協同之流程為標的，發展一延展式設計結構矩陣(E-DSM)以應用於協同設計流程之管理。

摘要(英)

The new product development (NPD) is coming to a new phase, cross-company design collaboration (CCDC), which is involving more than one enterprise to co-develop a new product. Collaborative design processes are an instrument which has been used in several industries. The design and development of complex engineering products require the efforts and collaboration of hundreds of participants from diverse backgrounds resulting in complex relationships among both people and tasks.
Though the past studies have proposed a useful tool –Design Structure Matrix (DSM) to model the NPD process, however DSM focuses on the cross-functional interaction but rarely emphasizes on modeling a clear and understanding CCDC process model, this thesis proposed a new type of DSM which extends the traditional DSM from applying in cross-functional development to a higher level- CCDC, called Extended-DSM (E-DSM) to fill in the vacancy.
In this thesis we first introduce the thesis background and motivation, then chapter 2 focuses on survey in two areas, includes new product development, business process re-design techniques. In chapter 3, we have an overview of CCDC, and introduce the design structure matrix, the main methodology we according to and use in E-DSM. Chapter 4 represents the main methodology we proposed- E-DSM, and we also apply it to an example of development of pneumatic control system. Finally, the conclusion and future research suggestions are made.

關鍵字(中)

★ 設計鏈
★ 延展式設計結構矩陣
★ 新產品開發
★ 設計結構矩陣
★ 跨公司設計協同

關鍵字(英)

★ New Product Development (NPD)
★ Cross-company design collaboration (CCDC)
★ Extended Design Structure Matrix (E-DSM)
★ Design Chain
★ Design Structure Matrix (DSM)

論文目次

ABSTRACT I
TABLE OF CONTENTS V
LIST OF FIGURES VIII
LIST OF TABLES X
CHAPTER 1 INTRODUCTION 1
1.1 Background 1
1.2 Motivation 2
1.3 Thesis Goals 3
1.4 Thesis Organization 4
CHAPTER 2 LITERATURE REVIEW 6
2.1 New Product Development 6
2.1.1 Introduction to NPD 6
2.1.2 Process of NPD 7
2.1.3 Methodology of NPD 8
2.1.3.1 Stage-gate analysis 8
2.1.3.2 Evolutionary Development 9
2.1.3.3 Design Chain Operations Reference Model 10
2.1.3.4 Early Supplier Involvement (ESI) 11
2.2 Process Collaboration 16
2.2.1. Collaboration Product Design Process 16
2.2.2 Collaborative Trend 18
2.2.3 Evolution of the Collaborative Commerce 18
2.3 Business Process Re-design Techniques 20
2.3.1 Techniques for Modeling Design Structure 20
A. Program Evaluation and Review Techniques (PERT)/Critical Path Method (CPM) 21
B. Flow Chart 22
C. IDEF0 23
D. Gantt Chart 24
E. Architecture of Integrated Information System (ARIS) 25
G. Design Structure Matrix 30
CHAPTER 3 PROJECT MANAGEMENT FOR CROSS-COMPANY DESIGN COLLABORATION 35
3.1 Overview of CCDC 35
3.1.1 Progress of Product Development 36
3.1.2 Features of CCDC Project 37
3.1.2.1 Complex Product Architecture 37
3.1.2.2 Global and Distributed Project Team Structure 38
3.1.2.3 Complex Product Development Management 38
3.2 DSM Fundamental 39
3.2.1 Matrix Construction of DSM 39
3.2.1.1 Basics of DSM 40
3.2.1.2 Feedback Loop 43
3.2.2 Traditional DSM vs. E-DSM 44
3.2.3 Basic Algorithms behind E-DSM- Sequence and Partition 46
3.2.3.1 Sequenced and Partitioned 46
3.3 A Methodological Framework for Applying E-DSM in CCDC Project 47
CHAPTER 4 E-DSM MODELING - USING PNEUMATIC CONTROL BLEED AIR VALVE FOR EXAMPLE 49
4.1 Descriptions of Example 49
4.2.1 Assumptions 50
4.2.2 Data Collection 51
4.3 Construct an E-DSM Methodology for Cross-Company Collaborative Design Process 53
4.3.1 E-DSM Initialization 55
4.3.2 CCDC E-DSM Modeling 57
4.3.2.1 STEP 1: Translate DAL into E-DSM 59
4.2.2.2 STEP 2: Simplify Collaborative Process 62
4.3.2.3 STEP 3: Partition E-DSM 67
4.4 Comparison between DSM and E-DSM 72
CHAPTER 5 CONCLUSION AND FUTURE RESEARCH 75
5.1 Conclusion 75
5.2 Future Research 76
REFERENCE 78

參考文獻

Brown, S. L., Eisenhardt, K.M. (1995), “Product Development: Past Research, Present Findings, and Future Directions” The Academy of Management Review, Vol. 20, pp. 343-378.
Browning, T. R. (2001), “Applying the design structure matrix to system decomposition and integration problems” IEEE Transaction On Engineering Management, Vol. 48, pp. 292-306.
Burdick, D., Bond, B., Miklovic, D., Pond, K., Eschinger, C. (1999), "C-Commerce: The New Arena for Business Applications" Research Note, Gartner Group.
Chiu, M. L. (2002), “An Organizational View of Design Communication in Design Collaboration” Design Studies, Vol. 23, pp. 187-201.
Choi, Y., Kim, K., Kim, C. (2005), “A design chain collaboration framework using reference models” The International Journal of Advanced Manufacturing Technology, Vol. 26, pp. 183-190.
Chuang, T. T., Nakatani, K. (2004), “Planning and deployment of collaborative commerce: a conceptual framework and empirical evidences” International Journal of Electronic Business, Vol. 2, pp. 157-173.
Clark, K. B. (1989), “Project Scope and Project Performance: The Effect of Parts Strategy and Supplier Involvement on Product Development” Management Science, Vol. 35, pp. 1247-1263.
Clark, K. B., Fujimoto, T. (1991), “Product Development Performance” Harvard Business School Press, Boston, MA.
Clifford, F. (2003), “Lean Strategies for Product Development: Achieving Breakthrough Performance in Bringing Products to Market” ASQ Quality Press
Corswant, F., Fredriksson, P., (2002), “Sourcing trends in the car industry: a survey of car manufacturers’ and suppliers’ strategies and relations.” International Journal of Operations & Production Management Vol. 22, pp. 741.
Conswant, F., Tunälv, C. (2002), “Coordinating customers and proactive suppliers A case study of supplier collaboration in product development” Journal of Engineering and Technology Management, Vol. 19, pp. 249-261.
Cooper, R.G. (1990), "Stage-Gate Systems: A New Tool for Managing New Products" Business Horizons/May-June, pp. 44-53.
Cotton T. (1996), “Evolutionary Fusion: A Customer-Oriented Incremental Life Cycle for Fusion” Hewlett-Packard Journal.
Deloite research (2002), "B2B Darwinism- How e-marketsplaces survive (and succeed)"
Dowlatshahi, S. (1997), “The role of product design in designer- buyer- supplier interface” Production Planning & Control, Vol. 8, pp. 522-532.
Eppinger, S. D. (2001), “Innovation at the speed of information” Harvard Business Review, Vol. 79, pp. 149–158.
Farrukh, C., Fraser, P., Gregory, M. (2003), “Development of a structured approach to assessing practice in product development collaborations” Proc. Instn Mech. Engrs Vol. 217, pp. 1131-1144.
FIPS PUBS (1993), “Integration definition for function modeling (IDEF0)” Federal Information Processing Standards Publication 183 (USA: National Institute of Standards and Technology).
Fraser, P., Farrukh, C., Gregory, M. (2003), “Managing product development collaborations-a process maturity approach” Proc. Instn Mech. Engrs. Vol. 217, pp. 1499-1519.
Gilb T. (1985), “Evolutionary delivery versus the waterfall model” ACM SIGSOFT Software Engineering Notes, Vol. 10, pp. 49-61.
Grady, J. O. (1993), “System Requirements Analysis ” McGraw-Hill, Inc., New York.
Goldratt, E. M. (1997), “Critical Chain” The North River Press, Great Barrington, MA.
Guivarch, A. D. (2003), “Concurrent Process Mapping, Organizations, Project and Knowledge Management in Large-Scale Product Development Projects: Using the Design Structure Matrix Method” Massachusetts Institute of Technology Thesis.
Lakemond, N., Berggren, C., Weele, A. (2006), “Coordinating supplier involvement in product development projects: a differentiated coordination typology” R&D Management, Vol. 36, pp. 55-66.
Lee, Y. C., Gilleard, J. D. (2002), “Collaborative design: a process model for refurbishment” Automation in Construction, Vol. 11, pp. 535– 544.
Lefebvre, E., Lefebvre, L. A., Hen, G. L., Mendgen, R. (2006),“Cross-Border E-Collaboration for New Product Development in the Automotive Industry” Proceedings of the 39th Hawaii International Conference on System Sciences.
McCord, K. R., Eppinger, S. D. (1993), “Managing the Integration Problem in Concurrent Engineering” Sloan School of Management , Massachusetts Institute of Technology, Working Paper.
McDonough, E. F., Kahn, K. B., Griffin, A. (1999), “Managing communication in global product development teams” IEEE Transactions on Engineering Management, Vol. 46, pp. 375-386.
Muller, A., Välikangas, L. (2002), “Extending the boundary of corporate innovation” Strartegy & Leadership, Vol. 30, pp. 4-9.
Nakazawa, T., Masuda, H. (2006), “Requirement-Definition-Confirmation Modeling Approach for Identifying Uncertainties in Product Design Processes” ASME 2006 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference.
Petersen, K., Handfield, R. B., Ragatz, G. L. (2003), "A Model of supplier integration into new product development" Journal of Product Innovation Management, Vol. 20, pp. 284–299.
Ragatz, G. L., Handfield, R. B., Scannell, T. V. (1997), “Success factors for integrating suppliers into new product development” Journal of Product Innovation Management, Vol. 14, pp. 190-202.
Rosenthal, S. R., March, A. (1988), “Speed-to-market: disciplines for product design and development” Executive Summary of Research Findings and Conference Proceedings, Boston University School of Management, Manufacturing Roundtable.
Scheer, A. W. (1992), “Architecture of Integrated Information Systems. Foundations of Enterprise Modeling” Springer-Verlag: Berlin
Scheer, A. W. (1994), “Business Process Engineering. Reference Models for Industrial Enterprises” Springer-Verlag: Berlin.
Sequeira, M. W. (1991), “Use of the Design Structure Matrix in the Improvement of an Automobile Development Process” Massachusetts Institute of Technology Thesis.
Steward, D. V. (1981), “Systems Analysis and Management: Structure. Strategy, and Design” McGraw-Hill , New York.
Takeishi, A. (2001), “Bridging Inter- and Intra-firm Boundaries: Management of Supplier Involvement in Automobile Product Development” Strategic Management Journal, Vol. 22, pp.403-433.
Trapp, G. (1991), “Sharing information: a CALS/CITIS, concurrent engineering and PDES/STEP synergy” CERC Technical Report, CERC-TR-TM-91-011. Concurrent Engineering Research Center, West Virginia University.
Ulrich, K. T., Eppinger, S. D. (2000), “Product Design and Development,” McGraw-Hill, Inc.
Valk, W., Wynstra, F. (2005), “Supplier Involvement in New Product Development in the Food Industry” Industrial Marketing Management, Vol. 34, pp. 681 – 694.
Walter W. P., Kenneth W. K., Laurel S. D. (1996), “Interorganizational Collaboration and the Locus of Innovation- Networks of Learning in Biotechnology” Administrative Science Quarterly, Vol. 41, pp. 116-145.
Wang, L., Shen, W., Xie, H., Neelamkavil, J., Pardasani, A. (2002), “Collaborative conceptual design-stage of the art and future trends” Computer-Aided Design, Vol. 34, pp.981-996.
Wynstra, F., Weele, A. V., Weggemann, M. (2001), “Managing Supplier Involvement in Product Development: Three Critical Issues” European Management Journal, Vol. 19, pp. 157–167.
Yassine, A., Whitney, D. E., Lavine, J., Zambito, T., “Do-It-Right-First-Time (DRFT) Approach to Design Structure Matrix (DSM) Restructuring” ASME 2006 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference.
Yassine, A., Braha, D. (2003), “Complex Concurrent Engineering and the Design Structure Matrix Method” Concurrent Engineering, Vol. 11, pp. 165-176.
Yassine, A. (2004), “An introduction to modeling and analyzing complex product development processes using the Design Structure Matrix (DSM) method” Quad-erni di Management.
Zirger, B. J., Maidique, M. A. (1990), “A Model of New Product Development: An Empirical Test” Management Science, Vol. 36. No. 7, pp. 867-883.
Web-Site:
Supply Chain Council Website: http://www.supply-chain.org
Proforma (2000) “Business Process Improvement” http://www.proformacorp.com/downloads/whitepapers.asp.
The Design Structure Matrix Website: http://www.dsmweb.org

指導教授

高信培(Hsing-Pei Kao)

審核日期

2007-7-1

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