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A Reference Model Based Framework for Supply Chain Collaboration  

Choi, Younghwan (Department of Industrial Engineering, Pohang University of Science and Technology)
Chae, Heekwon (Department of Industrial Engineering, Pohang University of Science and Technology)
Kim, Kwangsoo (Department of Industrial Engineering, Pohang University of Science and Technology)
Publication Information
Journal of Korean Institute of Industrial Engineers / v.31, no.2, 2005 , pp. 152-163 More about this Journal
Abstract
The focus of enterprise collaboration of supply chain management, has changed from integrating and exchanging business information to integrating and managing business processes between business partners. However, the collaboration is difficult due to the inherent complexity such as diverse business processes and dynamic business environments. To settle these problems, a reference model based enterprise architecture framework for the collaboration of supply chains is proposed in this paper. The supply chain collaboration framework is composed of three reference models capturing the different views of supply chain collaboration: supply process reference model, service component reference model, and technology and standard reference model. As the framework adapts the OMG's metadata architecture, the processes in the supply chain can be extended and integrated with other value chains, such as design chains, when it is necessary. Using the proposed framework, business managers can rapidly integrate and manage their business processes with their suppliers and customers.
Keywords
supply chain management; collaboration; reference model; enterprise architecture framework; business process;
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1 COSME(Cooperation Of Small and Medium Enterprises) (2001), The Virtual Enterprise X The Extended Enterprise, http://www.cosme.rwth-aachen.de/Cosme/public_html/Extend edXvirtual/ ExtendedXvirtual.htm
2 Jagdev, H.S. and Thoben, K.D (2001), Anatomy of enterprise collaborations, Production Planning and Control, 12(5), 437-451   DOI   ScienceOn
3 OMB(Office of Management & Budget) (2000), Management of Federal Information Resources, http://www.whitehouse.gov/ omb/circulars/a130/a130trans4.html
4 OMG(Object Management Group) (2002), Model Driven Architecture(MDA), http://www.omg.org/mda
5 Zachman, J. (1996), Concepts of the Framework for Enterprise Architecture, ZachmanInternational, Los Angeles
6 Cadence Design Systems (2003), Design Chain Optimization: Competing in the disaggregated electronics industry, White Paper
7 Swartwood, D. (2003), Using Lean, Six Sigma, and SCOR to improve Competitiveness, PRAGMATEK Consulting Group
8 Bass, Tim and Mabry, Roy (2004), Enterprise Architecture Reference Models: A Shared Vision for Service-Oriented Architectures, IEEE MILCOM 2004
9 Poole, J.D (2001), Model-Driven Architecture: Vision, Standards And Emerging Technologies, ECOOP, Position Paper
10 The Open Group (2002), The Open Group Architecture Framework( TOGAF) Version
11 The CIO(Chief Information Officers) Council (1999), Federal Enterprise Architecture Framework - version 1.1, http://www. cio.gov/archive/fedarchl.pdf
12 Kim,J. (2003), Thecurrentstateofthe logisticsindustry andtaskto deal with the problems, Samsung Economic Research Institute
13 DoD Architecture Framework Working Group (2003), DoD Architecture Framework: Volume I: Definitions andguidelines
14 Gou, H., Huang, B., Liu,W. and Li, X. (2003), A framework for virtualenterprise operation management, Computers inIndustry, 50, 333-352   DOI   ScienceOn
15 Harmon, P. (2003b), Second generation business process methodologies, Business Process Trends, 1(5), May 2003
16 SCC(Supply Chain Council) (2003), Supply Chain Operations Reference Model(SCOR) Version6.0
17 Wolf,Celia(2003),Valuechainsand businessprocesses, Business Process Trends, http://www.bptrends.com/publicationfiles/11-03TB Value Chainsand BPs -Wolf.pdf
18 Andrews.T, Curbera,F., Dholakia,H., Goland,Y. andKlein, J. et al. (2003), Business Process Execution Language for Web Services (BPEL4WS) v1.1, http://www.ibm.com/developerworks/library/ ws-bpel
19 Choi, Y., Kim, K. and Kim, C. (2005), A Design Chain Collaboration Framework Using Reference Models, Int.J. of Applied Manufacturing and Technology, published online
20 Kacandes, Peter (2004), Integrated Value ChainManagement, Sun Journal, 2(3)
21 W3C(2001), Web Services Description Language, http://www.w3. org/TR/2001INOTE-wsdl
22 Zachman, J. (2003), The Zachman Framework : A Primer for Enterprise Engineering and Manufacturing, electronic book, http://www.zachmaninternational.com
23 Harmon, P.(2003a), Supply Chains as Business Processes, Business Process Trends, 1(2), February 2003
24 MESA International (2004), Collaborative Manufacturing Explained, White Paper
25 Recker, R.& Bolstorff, P. (2003), Integration of SCOR with Lean & Six Sigma - Maximizing business performance improvement through the integrated deployment of SCOR, Lean and Six Sigma, Advanced Integrated Technologies Group, Inc
26 Sowa, J.F.and Zachman, J. (1992), Extending and Formalizing the Framework for Information Systems Architecture. IBM Systems Journal, 31(3)