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Received June 8, 2001
Accepted August 20, 2001
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This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/bync/3.0) which permits
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Multi-Dimensional Design Process Management by Extended Product Modeling for Concurrent Process Engineering
Department of Chemical Engineering, Korea Advanced Institute of Science and Technology, Daejeon 305-701, Korea 1Engineering Research Institute, Faculty of Engineering, The University of Tokyo, Tokyo 113-8656, Japan
Korean Journal of Chemical Engineering, September 2001, 18(5), 612-622(11), 10.1007/BF02706376
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Abstract
Conventional product and process models have focused on static features. That means product models are mainly based on structural decomposition of products, and process models are also often described by activity decomposition such as work breakdown structure. From the view of design process management, it is difficult to describe dynamic features of design processes appropriately through conventional methodologies. In this paper, a multidimensional approach for design process management was explored to manifest characteristics of design processes for chemical plant design. Parallelized design process for concurrent process engineering should be managed by twodimensional design activity flows. The process management makes it possible to guide progress of design processes in a helix structure by horizontal and vertical activity control simultaneously. They stand for teleological and causal relation between design activities, respectively. That can be achieved based on an extended product model, which represents various design perspectives explicitly from a conventional design activity model. The extended product model is composed of product data, design activities, and activity drivers. Dynamic features of the extended product model are expressed by an activity chain model. These concepts will support the realization of concurrent process engineering for chemical plant design in the sense that they provide design process management strategies.
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Bogle D, Perris T, Comput. Chem. Eng., 23(S), S779 (1999)
Book NL, Bhatnagar V, Comput. Chem. Eng., 24(2-7), 1641 (2000)
Bullinger HJ, Warschat J, "Concurrent Simultaneous Engineering Systems," Springer (1995)
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Chung Y, Fischer G, Compu. Ind. Engng., 26, 321 (1994)
Colquhoun GJ, Baines RW, Crossley R, Int. J. Computer-Integrated Manufacturing, 6, 252 (1993)
Gorti SR, Gupta A, Kim GJ, Sriram RD, Wong A, Computer-Aided Design, 30, 489 (1998)
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Han SY, Kim YS, Yoon TS, Lee TY, "Modeling of Process Equipment by Object Modeling Technique for Integrated Design System," Proc. APCChE99, 207 (1999)
Han SY, Lee TY, Yoon T, Naka Y, Comput. Chem. Eng., 23(S), S573 (1999)
Inmon WH, Zachman JA, Geiger JG, "Data Stores, Data Warehousing, and the Zachman Framework," McGraw-Hill (1997)
ISO10303-221, "EXPRESS Language Reference Manual," ISO TC184/SC4/WG5 (1991)
ISO10303-221, "Functional Data and Their Schematic Representation for Process Plant - Committee Draft," ISO/TC184/SC4/N592 (1997)
ISO10303-227, "Plant Spatial Configuration - Draft International Standard," ISO/TC184/SC4 (1997)
ISO10303-231, "Process Engineering Data: Process Design and Process Specifications of Major Equipment - Committee Draft," ISO/TC184/SC4/WG3 N745 (1997)
ISO10303-41, "Fundamentals of Product Description and Support," ISO/TC183/SC4 N (1997)
ISO13584, "Industrial Automation Systems and Integration - Parts Library," ISO TC/184/SC4 N290 (1995)
King JMP, Banares-Alcantara R, Artificial Intelligence Engineering Design Anal. Manufacturing, 11, 155 (1997)
Kjellberg T, Schmekel H, Annals CIRP, 41, 201 (1992)
Krause FL, Kimura F, Kjellberg T, Lu SCY, Annals CIRP, 42, 695 (1993)
Liu TH, Trappey AJC, Shyu JB, Concurrent Engineering, 7, 159 (1999)
Lu ML, Yang AD, Li HS, Wada T, Comput. Chem. Eng., 24(2-7), 463 (2000)
McKay A, Susan M, Pennington A, IEEE Trans. Knowl. Data Eng., 8, 825 (1996)
Owen J, "STEP An Introduction," Information Geometers Ltd. (1993)
Peltonen H, Pitkanen O, Sulonen R, Comput. Industry, 31, 195 (1996)
Rumbaugh J, Blaha M, Premerlani W, Eddy F, Lorensen W, "Object-Oriented Modeling and Design," Prentice-Hall Intermational, Inc. (1991)
Shah JJ, Jeon DK, Urban SD, Bliznakov P, Rogers M, Comput.-Aided Design, 28, 347 (1996)
Taura T, Kubota A, Research Eng. Design, 11, 45 (1999)
Taura T, Aoki T, Takada H, Kawashima K, Komeda S, Ikeda H, Numata J, Concurrent Eng., 7, 245 (1999)
