Abstract
Almost all complex artifacts nowadays, including physical artifacts such as airplanes, as well as informational artifacts such as software, organizations, business processes and so on, are defined via the interaction of many, sometimes thousands of participants, working on different elements of the design. This collaborative design process is challenging because strong interdependencies between design decisions make it difficult to converge on a single design that satisfies these dependencies and is acceptable to all participants. Current collaborative design approaches are as a result typically characterized by heavy reliance on expensive and time-consuming processes, poor incorporation of some important design concerns (typically later lifecycle issues such as environmental impact), as well as reduced creativity due to the tendency to incrementally modify known successful designs rather than explore radically different and potentially superior ones.
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References
Axelrod, R. (1984). The Evolution Of Cooperation, Basic Books.
Bar-Yam, Y. (1997). Dynamics of complex systems. Reading, Mass., Addison- Wesley.
Brown, D. C. (1989). Making design routine. Proceedings of IFIP TC/WG on Intelligent CAD.
Eppinger, S. D., M. V. Nukala, et al. (1997). “Generalized Models of Design Iteration Using Signal Flow Graphs.” Research in Engineering Design 9(2): 112–123.
Kirkpatrick, S., C. D. Gelatt, et al. (1983). “Optimization by simulated annealing.” Science 220: 671–680.
Klein, M. (1994). “Computer-Supported Conflict Management in Concurrent Engineering: Introduction to Special Issue.” Concurrent Engineering Research and Applications 2(3).
Klein, M., P. Faratin, et al. (2002a). Using an Annealing Mediator to Solve the Prisoners' Dilemma in the Negotiation of Complex Contracts. Agent-Mediated Electronic Commerce (AMEC-IV) Workshop, Bologna Italy, Springer.
Klein, M., P. Faratin, et al. (2002b). Negotiating Complex Contracts. Autonomous Agents and Multi-Agent Systems, Bologna Italy, AAAI Press.
Mitchell, T. M., L. I. Steinberg, et al. (1985). “A Knowledge-Based Approach To Design.” IEEE Transactions on Pattern Analysis and Machine Intelligence PAMI(7): 502–510.
Osborne, M. J. and A. Rubinstein (1994). A course in game theory. Cambridge, Mass., MIT Press.
Simon, H. A. (1996). The Sciences of the Artificial. Cambridge MA USA, MIT Press.
Smith, R. P. and S. D. Eppinger (1997). “Identifying controlling features of engineering design iteration.” Management Science 43(3): 276–93.
Sobek, D. K., A. C. Ward, et al. (1999). “Toyota's Principles of Set-Based Concurrent Engineering.” Sloan Management Review 40(2): 67–83.
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Klein, M., Sayama, H., Faratin, P., Bar-Yam, Y. (2006). The Dynamics of Collaborative Design: Insights From Complex Systems and Negotiation Research. In: Braha, D., Minai, A., Bar-Yam, Y. (eds) Complex Engineered Systems. Understanding Complex Systems. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-32834-3_8
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DOI: https://doi.org/10.1007/3-540-32834-3_8
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