以作者查詢圖書館館藏

、以作者查詢臺灣博碩士

、以作者查詢全國書目

、勘誤回報

、線上人數：88

、訪客IP：18.224.135.125

姓名	柯博棋(Po-Chi Ke )  查詢紙本館藏	畢業系所	工業管理研究所
論文名稱	發展一物件導向機能展開系統以建構元件式ERP系統 (FDS_ERP: The Development of an Object-Oriented Function Deployment System for Configuring Component-Based ERP Systems)
相關論文	★ 應用MFM 與PPM 監控協同設計之執行流程 ★ 應用DSM與DRFT於汽車電子之協同開發流程 ★ 一協同設計專案團隊組成方法- 以安全監視器產品為例 ★ 應用認知工程開發全球化光纖通訊系統 ★ 羽絨產業策略規劃-應用品質機能展開分析法 ★ 重電業協同專案管理績效之研究-以變電所統包工程為例 ★ 以屬性導向新產品開發之流程塑模與分析– 以醫療器材產業為案例 ★ 以品質機能展開法應用於主管管理職能之建構 ★ 應用參考模型以及流程建模改善供應鏈績效-以投影機產業為例 ★ 協同產品開發之流程管理 - 以汽車零件為例 ★ 配電系統之高壓電纜接頭供應商評選 ★ 應用品質機能展開於產品開發之流程分析-以刀鋒式伺服器為例 ★ 實施精實六標準差改進製程良率－以機頂盒表面黏著技術為例 ★ 太陽能模組產業之決策營運研究 ★ 新產品開發階段導入替代料之流程建模及潛在風險分析 ★ 應用實驗設計研發PET複合膜及改善厚膜翹曲問題
檔案	[Endnote RIS 格式]    [Bibtex 格式]    [相關文章]   [文章引用]   [完整記錄]   [館藏目錄]   [檢視]  [下載] 本電子論文使用權限為同意立即開放。 已達開放權限電子全文僅授權使用者為學術研究之目的，進行個人非營利性質之檢索、閱讀、列印。 請遵守中華民國著作權法之相關規定，切勿任意重製、散佈、改作、轉貼、播送，以免觸法。
摘要(英)	In today's dynamic and turbulent business environment, there is a strong need for the organizations to become globally competitive. The survival guide to competitiveness is to be closer to the customer and deliver value added product and services in the shortest possible time. This, in turn, demands integration of business processes of an enterprise. Enterprise Resource Planning (ERP) is such a strategic tool, which helps the company to gain competitive edge by integrating all business processes and optimizing the resources available. Implementing ERP has become an inevitable trend for the enterprise. Although ERP system becomes more and more popular nearly, implementing ERP system is an even more daunting challenge. Because ERP system encompasses all major of the business, users must make literally thousands of choices about each step of each business process they operate to configure an ERP system. ERP projects are also lengthy, involve large teams of people and higher costs, vast majority of companies who have been through a less than fully successful ERP implementation. According to the concept of QFD in concurrent engineering, we develop a methodology to let the implementation of ERP system more efficient and effective. In this research is to design the prototype of a Function Deployment System for configuring ERP systems (FDS_ERP) which can accelerate implementing ERP system. In brief, this framework is a hybrid QFD into which IDEF3 and IDEF4 are incorporated. And we use QFD to deploy the voice of the user and decomposed process/data flow and modules then describe their relationships. Using IDEF4 Object-Oriented Method to identify the object for the ERP and describes their relationships between objects. Using IDEF3 Process Description Capture capabilities for modeling, analyzing and through business processes, organizations, data and functions. Using configuration management methodology to control the implement of ERP project. Based on our methodology can construct a template, which can (1) Reduce ERP project lifecycle from preparation to go live. (2) Improve communications among personnel involved in ERP project. (3) Improve the match of deployed and configured ERP system capability with stakeholders’ requirements.
關鍵字(中)	★ IDEF3 ★  IDEF4 ★  企業資源規劃 ★  品質機能展開 ★  物件導向	關鍵字(英)	★ Enterprise Resource Planning (ERP) ★  IDEF3 ★  IDEF4 ★  Object-Oriented Technology ★  QFD
論文目次	Table of Contents Abstract i Acknowledgement ii Table of Contents iii List of Figures v List of Tables viii Chapter I Introduction 1.1 Background 1 1.2 Motivation 2 1.3 Research Objective3 1.4 Thesis Organization4 Chapter II Literature Review 2.1 Enterprise Resource Planning6 2.1.1 Introduction to ERP 6 2.1.2 Introduction to Component-Based ERP System 9 2.1.3 Issues of ERP Implementation 11 2.2 Concurrent Engineering 12 2.2.1 Contents of Concurrent Engineering12 2.2.2 Issues of Concurrent Engineering17 2.3 Process Model Representation and Existing Applications 17 2.3.1 The Work-flow Management System (WFMSs) 17 2.3.2 Process Model Representation Technologies19 2.4 Project Management 20 2.4.1 Project Integration Management 20 2.4.2 Project Scope Management 21 2.4.3 Project Quality Management 22 2.4.4 Project Risk Management 22 2.5 Configuration Management 23 2.5.1 Contents of Configuration Management 23 2.5.2 Importance of Configuration Management 24 2.5.3 Methods of Configuration Management 26 Chapter III Overview of FDS_ERP 3.1 Introduction to FDS_ERP 29 3.2 Framework of FDS_ERP 30 3.2.1 Framework of FDS_ERP 30 3.2.2 The Reasons for Adopting FDS_ERP33 3.3 Object Oriented System Analysis 34 3.3.1 Object Oriented Technology 34 3.3.2 System Analysis35 3.4 Introduction to Methods of FDS_ERP Applied36 3.4.1 Quality Function Deployment 36 3.4.2 IDEF3 Process Description Capture 38 3.4.3 IDEF4 Object Oriented Design Method 42 Chapter IV Design of FDS_ERP 4.1 ERP Project Scope and Requirements Analysis44 4.1.1 Preliminary Investigation 44 4.1.2 Requirements Analysis 47 4.2 Structured System Analysis 49 4.2.1 Global Business Model49 4.2.2 State Transition Schematic Model54 4.2.3 Detail Business Models55 4.2.4 Data Model 56 4.3 Construction of FDS_ERP 57 4.3.1 First Phase of FDS_ERP58 4.3.2 Second Phase of FDS_ERP62 4.3.3 Third Phase of FDS_ERP 65 4.3.4 Fourth Phase of FDS_ERP 68 Chapter V Implementation of FDS_ERP 5.1 Case Description73 5.2 Description of Applying FDS_ERP 73 Chapter VI Conclusion and Recommendations 6.1 Conclusions 90 6.2 Recommendations for Future Study 91 Reference 92 List of Figures Figure 1-1 The Role of ERP System 1 Figure 1-2 Deployment Process of QFD 2 Figure 1-3 Thesis Organization 5 Figure 2-1 Historical Development of ERP 6 Figure 2-2 Framework of Balanced Scorecard Approach 9 Figure 2-3 Overview of IFS Application10 Figure 2-4 Integrated Product Development Process Model 13 Figure 2-5 The Two Dimensions of a Workflow Process Specification 18 Figure 2-6 Configuration Management Roles in Project Management and System Development25 Figure 3-1 The Implement Stage of an ERP Project 29 Figure 3-2 The Implement Stage of an ERP Project in the IDEF0 Syntax 30 Figure 3-3 Construction of FDS_ERP in IDEF0 Syntax 30 Figure 3-4 I/O Relationships of FDS_ERP31 Figure 3-5 SCM Methodologies -- Check in/Check out Model 32 Figure 3-6 Overview Sequence of FDS_ERP 33 Figure 3-7 Basic Structures of QFD 37 Figure 3-8 Cascade of QFD Chart 37 Figure 3-9 Revised QFD Frameworks Suitable for Software 38 Figure 3-10 Process Schematic Symbols 40 Figure 3-11 Example of IDEF3 Flow Diagrams 40 Figure 3-12 Example of Object Symbols, Junctions, Links 41 Figure 3-13 Example of Transition Schematic 41 Figure 4-1 Tasks of Preliminary Investigation 45 Figure 4-2 Objects of Project Team Members 45 Figure 4-3 Project Lifecycle 46 Figure 4-4 Tasks of Requirements Analysis 47 Figure 4-5 Structured System Analysis Process 48 Figure 4-6 Requirement Analysis Model 49 Figure 4-7 Structured System Analysis Representation of IDEF 4 50 Figure 4-8 Objects Schema50 Figure 4-9 Object Representation of FDS_ERP in IDEF4 Scheme51 Figure 4-10 Global Business Model with IDEF4- Make to Order Manufacturing 52 Figure 4-11 Global Business Model with IDEF3- Make to Order Manufacturing53 Figure 4-12 Global Business Model with IDEF4- Make to Stock Manufacturing 53 Figure 4-13 Global Business Model with IDEF3- Make to Stock Manufacturing 54 Figure 4-14 State Transition Schematic Model with IDEF3- Make to Order Manufacturing54 Figure 4-15 Detail Business Model with IDEF4-Make to Order Manufacturing55 Figure 4-16 Detail Business Model with IDEF3-Make to Order Manufacturing56 Figure 4-17 Data Model Objects 57 Figure 4-18 Basis of FDS_ERP 57 Figure 4-19 First Phase of FDS_ERP 58 Figure 4-20 Overview of ERP Components 59 Figure 4-21 Relationships between Stakeholders’ Requirements and ERP Components61 Figure 4-22 Second Phase of FDS_ERP 63 Figure 4-23 Relationships between ERP components and Sub-process in “Make to Order Manufacturing” scenario 64 Figure 4-24 Third Phase of FDS_ERP 66 Figure 4-25 Relationships between Sub-process “Manufacturing” and Activity decomposed from “Report Operations” in “Make to Order Manufacturing” scenario 67 Figure 4-26 Fourth Phase of FDS_ERP 69 Figure 4-27 Relationships between Activity decomposed from “Report Operations” and Table in “Make to Order Manufacturing” scenario70 Figure 5-1 Components of IFS Application 74 Figure 5-2 Relationships between Stakeholders’ Requirements and Components of IFS Application75 Figure 5-3 Global Business Model of Company B (a)78 Figure 5-4 Global Business Model of Company B (b)78 Figure 5-5 Global Business Model of Company B (c)78 Figure 5-6 Relationships between Components of IFS Application and Sub-process 79 Figure 5-7 Detail Business Model of Enter Purchase Requisition 81 Figure 5-8 Detail Business Model of Handle Purchase Requisition 81 Figure 5-9 Detail Business Model of Handle Quotation 81 Figure 5-10 Detail Business Model of Enter Purchase Order 82 Figure 5-11 Detail Business Model of Handle Purchase Order 82 Figure 5-12 Detail Business Model of Handle Receipt 82 Figure 5-13 Detail Business Model of Enter and Post Supplier Invoice 83 Figure 5-14 Detail Business Model of Authorize Payment Plan 83 Figure 5-15 Detail Business Model of Cancel Supplier Invoice 83 Figure 5-16 Relationships between Sub-process and Activity 84 Figure 5-17 Relationships between Activity and Table 87 List of Tables Table 2-1 Comparisons between MRP, MRPII and ERP 8 Table 2-2 Reasons of ERP Implement Failure12 Table 2-3 Definitions of Concurrent Engineering 14 Table 2-4 Domains that IPPD Applied 15 Table 2-5 Issues of IPPD 16 Table 2-6 Four Major Process Modeling Representation Perspectives19 Table 2-7 Four Major Process Modeling Representation Perspectives vs. Applications 20 Table 2-8 Issues of Project Scope 21 Table 2-9 Overview of Configuration Management Methodology 27 Table 4-1 Definitions of Several Kinds of Scenarios 58 Table 4-2 Modules in Manufacturing of IFS Application 60 Table 4-3 Relationships between Stakeholders’ Requirements and ERP Components in FDS_ERP62 Table 4-4 Relationships between ERP components and Sub-process in FDS_ERP65 Table 4-5 Relationships between Sub-processes ”Manufacturing” and Activity decomposed from “Report Operations” in FDS_ERP in “Make to Order Manufacturing”Scenario 68 Table 4-6 Relationships between Activity decomposed from “Report Operations”and Table in FDS_ERP in “Make to Order Manufacturing" 71 Table 5-1 Description of Material in Company B 72 Table 5-2 The First Phase of FDS_ERP--Relationships between Stakeholders’ Requirements and Components of IFS Application (a)76 Table 5-3 The First Phase of FDS_ERP--Relationships between Stakeholders’ Requirements and Components of IFS Application (b)76 Table 5-4 The First Phase of FDS_ERP--Relationships between Stakeholders’ Requirements and Components of IFS Application (c)76 Table 5-5 The First Phase of FDS_ERP--Relationships between Stakeholders’ Requirements and Components of IFS Application (d)77 Table 5-6 The First Phase of FDS_ERP--Relationships between Stakeholders’ Requirements and Components of IFS Application (e)77 Table 5-7 The First Phase of FDS_ERP--Relationships between Stakeholders’ Requirements and Components of IFS Application (f)77 Table 5-8 The Second Phase of FDS_ERP--Relationships between Components of IFS Application and Sub-process 80 Table 5-9 The Third Phase of FDS_ERP--Relationships between Sub-process and Activity (a)85 Table 5-10 The Third Phase of FDS_ERP--Relationships between Sub-process and Activity (b)85 Table 5-11 The Third Phase of FDS_ERP--Relationships between Sub-process and Activity (c) 86 Table 5-12 The Fourth Phase of FDS_ERP-- Relationships between Activity and Table (a) 88 Table 5-13 The Fourth Phase of FDS_ERP-- Relationships between Activity and Table (b 89
參考文獻	References Abrahamson, S.; Wallace, D.; Senin, N.; Sferro, P., “Integrated design in a service marketplace,” Computer- Aided Design, Volume: 32, Issue: 2, February 1, 2000, pp. 97- 107. Adamski, D.F., “ Tools, techniques and philosophies of effective project management,” Northcon 95. IEEE Technical Applications Conference and Workshops Northcon95, 1995, p. 374. Adrien R.Presley, 1997 Allen, Warren E, “Establishing some basic project-management body-of-knowledge concepts,” International Journal of Project Management, Volume: 13, Issue: 2, April, 1995, pp.77-82. Amor, Robert; Augenbroe, Godfried; Hosking, John; Rombouts, Wouter; Grundy, John, “Directions in modelling environments Automation in Construction,” Volume: 4, Issue: 3, October, 1995, pp. 173-187. Bancroft, Nancy H, “New Partnerships for Managing Technological Change,” 1992: John Wiley and Sons, Inc. Belassi, Walid, “A new framework for determining critical success/failure factors in projects,” International Journal of Project Management, Volume: 14, Issue: 3, 1996, pp. 141-151. Berlack, Ronald H., Software Configuration Management, John Wiley & Sons, New York, 1992. Boehm, Barry, 1998. “A Spiral Model of Software Development and Enhancement,” IEEE Computer, 1988, pp. 61-72. Booch, G., “Object-Oriented Design With Application,” The Benjamin/Cummings Publishing Company, Redwood City, CA. 1991. Bottom Line, PC Quest Feb. 1998, http://www.pcquest.com/feb98/bottmline.html. Brand, H. SAP R/3 Implementation with ASAP: The Official SAP Guide. Bk&Cd Rom edition, 1999. Brissaud, D., Tichkiewitch, S., “Innovation and manufacturability analysis in an integrated design context,” Computers in Industry, Volume: 43, Issue: 2, October, 2000, pp. 111-121. Brown, A. and K. Walinau, "The Current State of CBSE," IEEE Software, vol. 15, no. October 1998, pp. 37-46. Bunyard, J. M., “Today’s risks in software development — Can they be significantly reduced?” Concept 5/4, 1982, pp. 73- 94. Callaway Erin, "ERP: Integrated Applications and Business Processes across the Enterprise," Computer Technology Research Corp., First Edition -1999 Chan, Kevin; King, Calvin; Wright, Paul, “COMPASS: Computer Oriented Materials, Processes, and Apparatus Selection System,” Journal of Manufacturing Systems, Volume: 17, Issue: 4, 1998, pp. 275-286. Cliffe, S., “ERP Implementation,” Harvard Business Review, January — February, pp. 16-17. Cooper R.G., “Stage-Gate Systems: A New Tool for Managing New Products,” Engineering Management Review, fall 1991, pp. 5- 12. Cooper R.G., Klienschmidt E.J., “Uncovering the Keys to New Product Schusses,” Engineering Management Review, winter 1993, pp.5-18. Curtis, B., Keller, M.I. and Over, J., “ Process Modeling”, Communication of the ACM, Vol.35, No.9, 1992. Cusumano, M., Japan’s Software Factories, A Challenge to U.S. Management. Oxford, U.K.: Oxford Univ. Press, 1991. Dawson, C. W., “Generalised activity-on-the-node networks for managing uncertainty in projects,” International Journal of Project Management, Volume: 13, Issue: 6, December, 1995, pp. 353-362. Deschamps, Jean-Philippe, “Managing Innovation: From Serendipity to Process,” The Journal of Product Innovation Management, Volume: 13, Issue: 2, March, 1996, p. 172. Dey, Prasanta Kumar; Tabucanon, Mario T, “Petroleum pipeline construction planning: a conceptual framework International Journal of Project Management,” Volume: 14, Issue: 4, August, 1996, pp. 231-240. DoD-Mil-Std-973, Configuration Management Department of Defense, 1992. Eversheim, W.; Bochtler, W.; Grasler, R.; Kolscheid, W., “Simultaneous engineering approach to an integrated design and process planning,” European Journal of Operational Research, Volume: 100, Issue: 2, July 16, 1997, pp. 327-337. Feiler Peter H., “Configuration Management Models in Commercial Environments,” Technical Report CMU/SEI-91-TR-7 ESD-9-TR-7, March 1991. Fishburn, P.C. (1984), “Foundations of risk measurement. I: Risk as probable loss”, Management Science 30/4, pp. 396- 406. Fleming, Quentin W.; Koppelman, Joel M., Integrated project development teams: another fad … or a permanent change, International Journal of Project Management, Volume: 14, Issue: 3, 1996, pp. 163-168. Furey, S., “Why we should use function points [software metrics],” IEEE Software, Volume: 14 Issue: 2 , Mar/Apr 1997, pp. 28-30. George Allan, “Configuration management and its impact on business that use computer platforms,” International Journal of Project Management Vol. 15, No.5, 1999, pp. 321- 330. Glover S. M., Prawitt, D. F., and Romney, M. B., “Implement ERP,” The internal auditor, 56,1, February, 1999, pp. 40-47. Govers C. P .M “ What and How about QFD,” International Journal of Product Economics, 1996, pp. 575-585. Grzinich, J. C., Thompson, J. H., Sentovich, M. F., "Implementation of an integrated product development process for systems,” Innovation in Technology Management - The Key to Global Leadership. PICMET '97: Portland International Conference on Management and Technology, 1997, pp. 427—430. Humphrey, W. S. et al., “A method for assessing the software engineering capacity of contractors,” Software Engineering Institute, Pittsburgh, PA, Feb, 1989. Hunghes, M. W., “Why projects fail: The effects of ignoring the obvious”, Industrial Engineering 18/4, 1986, pp.14-18. IDEF web site, http://www.idef.com. IEEE, IEEE Standard Glossary of Software Engineering Terminology, 1983 & 1990. IFS web site, http://www.ifsworld.com/products/product_solutions.asp Jeffrey L., “System Analysis and Design Methods,” McGrawHill, 2000. Jones, M. C., Harrison, A. W., IS project team performance: an empirical assessment. Information and Management 31, 1996, pp.57-65. Jordan, W. S. and Krumwiede, K. R., “ERP Implementers, Bewarel,” Cost Management Update, 95, March, 1999, pp.1-4. Joseph H. Rawlings III, “SCM for Network Development Environments,” McGraw-Hill, 1994. Kellner, Marc I.; Madachy, Raymond J.; Raffo, David M., “Software process simulation modeling: Why? What? How?” Journal of Systems and Software, Volume: 46, Issue: 2-3, April 15, 1999, pp. 91-105. Khoshafian, S., and Abnous, R., “Object Orientation: Concepts, Languages, Database, User Interfaces,” Wiley, New York, 1990. Kim, “Component-Based ERP Design in a Distributed Object Enviroment”, March 2, 1999. Knowledge Based System Laboratory, “IDEF 4 Object-Oriented Design Method Report,” College Station, Department of Industrial Engineering, Texas A&M University, 1995. Kog, Y. C., Chua, D. K. H., Loh, P. K., Jaselskis, E. J., “Key determinants for construction schedule performance,” International Journal of Project Management, Volume: 17, Issue: 6, December, 1999, pp. 351-359. Kovacs, Z; Le Goff, J-M; McClatchey, R, “Support for product data from design to production,” Computer Integrated Manufacturing Systems, Volume: 11, Issue: 4, October, 1998, pp. 285-290. Krause F. L., Kimura F., Kellberg T., Lu S.C-Y, “Product modeling: a keynote paper,” Ann. CIRP 42 (2), 1993, pp. 696- 706. Lee, Chang-Ho; Sause, Richard; K. Hong, Namhee, “Overview of entity-based integrated design product and process models,” Advances in Engineering Software, Volume: 29, Issue: 10, December, 1998, pp. 809-823. Levene, R J; Braganza, A, “Controlling the work scope in organizational transformation: a programmed management approach,” International Journal of Project Management, Volume: 14, Issue: 6, December, 1996, pp. 331-339. Love, P. E. D., Gunasekaran, A., Li, H., “Concurrent engineering: a strategy for procuring construction projects,” International Journal of Project Management, Volume: 16, Issue: 6, December, 1998, pp. 375-383. Maropoulos, Paul G.; Bradley, Hugh D.; Yao, Zhihui, “CAPABLE: an aggregate process planning system for integrated product development,” Journal of Materials Processing Technology, Volume: 76, Issue: 1-3, April, 1998, pp. 16-22. Martin West, “The Use of QFD in Software Development,” International Journal of Product Economics, 1991. Martin, J. and Odell, J., “ Object Oriented Analysis and Design,” Englewood Cliffs, Prentice Hall, NJ. 1992. Mayer, R. J., Cullinane, T. P., DeWitte, P. S., Knappenberger, W. B., and Wells, M. S., Information Integration For Concurrent Engineering (IICE) —IDEF3 Process Description Capture Method Report, College Station, TX, Knowledge Based Systems, Inc., 1992. McGrath, M. E., “Setting the PACE in product and Cycle Time Excellence,” Butterworth-Heinemann, 1996. Mendes Kathleen S., "Structured System Analysis: A Technique to Define Business Requirements," Sloan Management Review, 1980 Merkhover, M. W., “Quantifying judgemental uncertainty: Methodology, experiences and insights”, IEEE Transactions on Systems, Management, and Cybernetics’ 17/5, 741’52, 1987. Moller, K. H. and Paulish D. J., Software Metrics, IEEE Computer Society Press, London: Chapman & Hall, 1993, pp. 21- 68. Musa, J. D., Jannino, A., Okumoto, K., Software Reliability, Processional Edition, NY: McGraw-Hill, 1990, pp. 5-9. Ovum, K. Ring and N. Ward-Dutton, "Componentware-Building it, Buying it, Selling it", Ovum Ltd., 1998. Paulk, M. C., Curtis, B., Chrissis, M. B., and Weber, C. V., Capability Maturity Model for Software, version 1.1, Software Engineering Institute Pittsburgh, PA, 1993. Peng, Ting-Kuo; Trappey, Amy J. C., “A step toward STEP- compatible engineering data management: the data models of product structure and engineering changes,” Robotics and Computer-Integrated Manufacturing, Volume: 14, Issue: 2, April, 1998, pp. 89-109. Phasad Bingi, Maneesh K. Sharma, and Jayanth K. Godla, “Critical Issues Affecting an ERP Implementation,” Information Systems Management Summer 1999. Prasad, B., “Concurrent Engineering Fundamentals: Integrated Product and Process Organization,” Vol. I, II, Prentice Hall PTR, ISBN 0-13-14763-4, 1997. Project Management Institute Standards Committee, 1996. Project Management Institute, “A guide to the project management body of knowledge,” 1996. Raffo, David M.; Kellner, Marc I., “Empirical analysis in software process simulation modeling,” Journal of Systems and Software, Volume: 53, Issue: 1, July 15, 2000, pp. 31-41. Revelle et al., "The QFD Handbook," John Wiley & Sons, Inc.1996 Rosemann, Michale and Wiese, Jens,“Measuring the Performance of ERP Software — a Balanced Scorecard Approach,” Proceedings of the Australasian Conference on Information Systems. Wellington, 1-3 December 1999. Royce W. W., “Managing the development of the large software systems: Concepts and techniques,” in PROC, WESCO, 1970. Ruland, Detlev; Spindler, Thomas, “Integration of product and design data using a metadata- and a rule-based approach,” Computer Integrated Manufacturing Systems, Volume: 8, Issue: 3, August, 1995, pp. 211-221. Rumbaugh, J. “Object Oriented Modeling and Design”, Prentice Hall, Englewood Cliffs NJ., 1991. Shaler, S. and Mellor, S., “Object-Oriented System Analysis: Modeling the Real World in Data,” Prentice Hall, Englewood Cliffs, NJ, 1988. Shenhar, Aaron J.; Dvir, Dov; Shulman, Yechiel, “A two- dimensional taxonomy of products and innovations,” Journal of Engineering and Technology Management Jet-M, Volume: 12, Issue: 3, December, 1995, pp. 175-200. Sicotte, Helene; Langley, Ann, “Integration mechanisms and R&D project performance,” Journal of Engineering and Technology Management, Volume: 17, Issue: 1, March, 2000, pp. 1-37. Slater, D., “The Hidden Costs of Enterprise Software,” CIO Magazine, January 15, 1998. Smith, L. A., and Mandakovic, T., “Estimating: The input into good project planning”, IEEE Transactions on Engineering Management 32/4, 1985, pp. 181-185. Sock H. Chung, and Charles A. Snyder and An ERP Strategy, http://www.pathfinder.com/fortune/1998/980202/fea.html Software Technology Support Center, “Software Configuration Management Technologies and Application”, http:// www.stsc.hill.af.mil Solhenius G., “Concurrent Engineering,” Ann. CIRP 41, 1992. Stadzisz, P. C., Henrioud, J. M., “An integrated approach for the design of multi-product assembly systems,” Computers in Industry, Volume: 36, Issue: 1-2, April 30, 1998, pp. 21-29. Statman, M., and Tyejee, T. T., “The risk of investment in technological innovation”, IEEE Transactions on Engineering Management 31/4, 1984, pp. 165-171. Stavridou, Victoria, “Integration in software intensive systems,” Journal of Systems and Software, Volume: 48, Issue: 2, October 15, 1999, pp. 91-104. Susan Dart, “Concepts in Configuration Management Systems,” Software Engineering Institute, 1996. Sutherland, John W., “A Prospective on Macrocybernetic Process Management Systems,” Technological Forecasting and Social Change, Volume: 55, Issue: 3, July, 1997, pp. 215-248. Swanson K., McComb D., Smith J., and McCubbrey D., “The application software factory: Applying total quality techniques to systems development,” MIS Quart., Dec. 1991. Sweat, J., “Learning Curve,” Information week Online, August 12, 1999. Szyperski, C., Component Software: Beyond Object-Oriented Programming, Addison Wesley, 1998. Tichkiewitch, S., “CAD/CAM to integrated design,” Int. J. CAD/CAM Computer Graphics 9 (5), 1994, pp. 609-621. Tichkiewitch, S., “Specications on integrated design methodology using a multi-view product model,” Proceedings of Third Biennial Joint Conference on Engineering Systems Design & Analysis, Montpellier, 1-4 July, ASME, 1996, pp. 101- 108. Tichkiewitch, S., Kasusky, E. Chapa, “Methods and tools for integration and holonic design,” Inc. J. CAD/CAM Computer Graphics 12 (6), 1997, pp. 647-667. Tichy. W. F., “Tools for Software Configuration Management,” In: J. F. H. Winkler, cd., International Work-shop on Software Version and Configuration Control. Published by the German Chapter of the ACM, Report no 30. Grassau, 27. to 29. January 1988. B. G. Teubner, Stuttgart, Germany, pp. 1-20. Tuman, J., “Success modeling: A technique for building a winning project team”, in: Measuring Success, Proceedings of the 18th Annual Seminar / Symposium of the Project Management Institute, Montreal, Canada, September 1986, pp. 94-108. W.M.P. van der Aalst and K.M. van Hee., "Business Process Redesign: A Petri net-based approach", Computers in Industry, Vol.29, pp15-26, 1996. Wateridge, John, “The role of configuration management in the development and management of Information Systems/Technology (IS/IT) projects,” International Journal of Project Management Vol. 17, No. 4, 1999, pp. 237-241. Wateridge, John, “Training for IS/IT project managers: a way forward,” International Journal of Project Management, Volume: 15, Issue: 5, October, 1997, pp. 283-288. Wayne Babich, Software Configuration Management: Coordination for Team Productivity Addison-Wesley, 1986. WFMC, "Workflow Management Coalition terminology and Glossary," (WFMC-TC-1011), Technical report, Workflow Management Coalition, Brussels, 1996 WFMC, "Workflow Management Coalition terminology and Glossary,", Technical report, Workflow Management Coalition, Brussels, 1994. Wideman, R Max, “Criteria for a project-management body of knowledge,” International Journal of Project Management, Volume: 13, Issue: 2, April, 1995, pp. 71-75. Wilder, C. and Davis, B., “False Starts, Strong Finishes,” Information week online,” November 30, 1998. Yan, Pingtao; Zhou, MengChu; Sebastian, Donald, “An integrated product and process development methodology: Concept formulation,” Robotics and Computer-Integrated Manufacturing, Volume: 15, Issue: 3, June, 1999, pp. 201-210. Zelany, M., “Intuition — Its failures and merits”, in: B. Persson (ed.), Surviving Failures. Patterns and Cases of Project Mismanagement, Almqvist & Wiksell International, Stockholm, 1979, pp. 172-183.
指導教授	高信培(Hsin-Pei Kao)	審核日期	2001-6-28
推文	facebook   plurk   twitter   funp   google   live   udn   HD   myshare   reddit   netvibes   friend   youpush   delicious   baidu
網路書籤	Google bookmarks   del.icio.us   hemidemi   myshare