The broad interest in concurrent engineering has inspired research in the area of decomposition in mechanical design. Much of the research reported in the literature falls into one of three categories: (1) product decomposition, (2) problem decomposition, or (3) process decomposition. This paper provides a detailed discussion of the typology of decomposition in mechanical design. Related work is described and examples are provided to illustrate the need for decomposition of products, problems, and processes in design. Representation techniques and methodologies for decomposition are outlined. Finally, future research issues in decomposition in mechanical design are identified.
Issue Section:
Research Papers
1.
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Luo
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Gay
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.2.
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S.
Li
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.3.
Azarm
S.
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1989
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.4.
Brown
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1986
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.7.
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8.
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S.
Dixon
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1989
a, “A Review of Research in Mechanical Engineering Design. Part I: Descriptive, Prescriptive, and Computer-Based Models of Design Processes
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11.
Johnson
R. C.
Benson
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1984
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.12.
Kannapan, S. M., and Marshek, K. M., 1992, “Engineering Design Methodologies: A New Perspective,” Intelligent Design and Manufacturing, Kusiak, A., ed., John Wiley & Sons, Inc., New York, NY, pp. 3–38.
13.
Kirsch, U., 1981, Optimal Structural Design, McGraw-Hill Book Company, New York, NY.
14.
Kusiak, A., and Larson, T. N., 1994a, “Reliability Analysis and Risk Assessment in IDEF3 Process Models,” Journal of Computer-Integrated Engineering, in press.
15.
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16.
Kusiak
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Kusiak
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1992
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Kusiak
A.
Wang
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a, “Efficient Organizing of Design Activities
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.19.
Kusiak
A.
Wang
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.20.
Mayer, R. J., ed., 1990, IDEF1x Data Modeling: A Reconstruction of the Original Air Force Report, Knowledge Based Systems, Inc., College Station, TX.
21.
Mayer, R. J., Cullinane, T. P., deWitte, P. S., Knappenberger, W. B., Perakath, B., and Wells, M. S., 1992, Information Integration for Concurrent Engineering (IICE) IDEF3 Process Description Capture Method Report, Armstrong Laboratory, Wright-Patterson AFB, OH, AL-TR-1992-0057.
22.
Pahl, G., and Beitz, W., 1984, Engineering Design, The Design Council, Springer-Verlag, London.
23.
Papalambros, P., and Wilde, D. J., 1988, Principles of Optimal Design: Modelling and Computation, Cambridge University Press.
24.
Rinderle, J. R., 1986, “Implications of Function-Form-Fabrication Relations on Design Decomposition Strategies,” Proceedings of the ASME Conference on Computers in Engineering, 1986, ASME, Chicago, IL., pp. 193–198.
25.
Rogers, J. L., and Bloebaum, C. L., 1994, “Odering Design Tasks Based on Coupling Strengths,” NASA Technical Memorandum 109137, Langley Research Center, Hampton, VA.
26.
Rogers, J. L., and Padula, S. L., 1989, “An Intelligent Advisor for the Design Manager,” NASA Technical Memorandum 101558, Langley Research Center, Hampton, VA.
27.
Sobieszczanski-Sobieski, J., 1982, “A Linear Decomposition Method for Large Optimization Problems: Blueprint for Development,” NASA Technical Memorandum 83248, Langley Research Center, Hampton, VA.
28.
Sobieszczanski-Sobieski, J., 1989, “Multidisciplinary Optimization for Engineering Systems: Achievements and Potential,” NASA Technical Memorandum 101566, Langley Research Center, Hampton, VA.
29.
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30.
Steward, D. V., 1993, NSF Report: Using the Design Structure Method, Computer Science Department, California State University, Sacramento, CA.
31.
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32.
U.S. Air Force, 1981, Integrated Computer Aided Manufacturing (ICAM) Architecture Part II, Volume IV-Functional Modeling Manual (IDEF0), Air Force Materials Laboratory, Wright-Patterson AFB, Ohio 45433, AFWAL-tr-81-4023.
33.
Wagner, T. C., and Papalambros, P. Y., 1993a, “A General Framework for Decomposition Analysis in Optimal Design,” Proceedings, ASME Advances in Design Automation Conference, DE-Vol. 65–2, pp. 315–325.
34.
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