A General Knowledge-Based Framework for Conceptual Design of Multi-disciplinary Systems

Chen, Yong; Liu, Ze-Lin; Xie, You-Bai

doi:10.1007/978-94-007-0510-4_23

Yong Chen²,
Ze-Lin Liu² &
You-Bai Xie²

1772 Accesses
3 Citations

Abstract

Designers are encouraged to explore in wide multi-disciplinary solution spaces for finding novel and optimal principle solutions during conceptual design. However, as cultivated in limited disciplines, they often don’t have sufficient multi-disciplinary knowledge for fulfilling such tasks. A viable solution to this issue is to develop an automated conceptual design system so that knowledge from various disciplines can be automatically synthesized together. Since conceptual design is often achieved through reusing and synthesizing known principle solutions, this paper proposes a knowledge-based framework for achieving automated conceptual design of multi-disciplinary systems, which comprises three primary parts, i.e. a flexible constraint-based approach for representing desired functions, a situation-free approach for modeling functional knowledge of known principle solutions, and an agent-based approach for synthesizing known principle solutions for desired functions. A design case demonstrates that the proposed framework can effectively achieve automated conceptual design of multi-disciplinary systems. Therefore, designers can then be automatically guided to explore in multi-disciplinary solution spaces during conceptual design.

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References

Pahl, G., Beitz, W.: Engineering design: A systematic approach. Springer, New York (1996)
Google Scholar
Wang, L., Shen, W., Xie, H.: Collaborative conceptual design- State of the art and future trends. Computer-Aided Design 34, 981–996 (2002)
Article Google Scholar
Umeda, Y., Ishii, M., Yoshioka, M., et al.: Supporting conceptual design based on the function-behaviour-state modeler. AI EDAM 10(4), 275–288 (1996)
Google Scholar
Prabhakar, S., Goel, A.K.: Functional modeling for enabling adaptive design of devices for new environments. Art. Int. Eng. 12, 417–444 (1998)
Article Google Scholar
Kota, S., Chiou, S.J.: Conceptual design of mechanisms based on computational synthesis and simulation of kinematic building blocks. Research in Engineering Design 4, 75–87 (1992)
Article Google Scholar
Chakrabarti, A., Bligh, T.P.: An approach to functional synthesis of mechanical design concepts: Theory, applications and merging research issues. AI EDAM 10, 313–331 (1996)
Google Scholar
Li, C.L., Tan, S.T., Chan, K.W.: A qualitative and heuristic approach to the conceptual design of mechanism. Engineering Applications of Artificial Intelligence 9(1), 17–32 (1996)
Article Google Scholar
Ulrich, K., Seering, W.: Synthesis of schematic descriptions in mechanical design. Research in Engineering Design 1(1), 3–18 (1989)
Article Google Scholar
Welch, R.V., Dixon, J.R.: Guiding conceptual design through behavioral reasoning. Research in Engineering Design 6, 169–188 (1994)
Article Google Scholar
Bracewell, R.H., Sharpe, J.E.E.: Functional description used in computer support for qualitative scheme generation- Schemebuilder. AI EDAM 10, 333–345 (1996)
Google Scholar
Campbell, M.I., Cagan, J., Kotovsky, K.: Agent-based synthesis of electromechanical design configurations. Journal of Mechanical Design 122, 61–69 (2000)
Article Google Scholar
Rosenberg, R., Karnopp, D.: Introduction to physical system dynamics. McGraw-Hill, New York (1983)
Google Scholar
Gero, J.S.: Design prototypes: A knowledge representation schema for design. AI Magazine 11(4), 26–36 (1991)
Google Scholar
Sivaloganathan, S., Shahi, T.M.M.: Design reuse: an overview. Journal of Engineering Manufacture 213, 641–654 (1998)
Article Google Scholar
Nilsson, N.J.: Artificial Intelligence: A New Synthesis. Morgan Kaufmann, CA (1998)
MATH Google Scholar
Chen, Y., Feng, P.E., He, B., et al.: Automated conceptual design of mechanisms using improved morphological matrix. Journal of Mechanical Design 128, 516–526 (2006)
Article Google Scholar

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Authors and Affiliations

Shanghai Jiao-Tong University, P.R. China
Yong Chen, Ze-Lin Liu & You-Bai Xie

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Yong Chen
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Ze-Lin Liu
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You-Bai Xie
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Krasnow Institute for Advanced Study, University Avenue 4400, 22030, Fairfax, Virginia, USA
John S. Gero

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Chen, Y., Liu, ZL., Xie, YB. (2011). A General Knowledge-Based Framework for Conceptual Design of Multi-disciplinary Systems. In: Gero, J.S. (eds) Design Computing and Cognition ’10. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-0510-4_23

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DOI: https://doi.org/10.1007/978-94-007-0510-4_23
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-007-0509-8
Online ISBN: 978-94-007-0510-4
eBook Packages: EngineeringEngineering (R0)

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