Project Decision-Making for Conceptual Design Based on Rough Set

Ming Hai Yuan; Shuo Cheng; Zhi Yong Dai; Ai Min Ji

doi:10.4028/www.scientific.net/KEM.620.402

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HomeKey Engineering MaterialsKey Engineering Materials Vol. 620Project Decision-Making for Conceptual Design...

Project Decision-Making for Conceptual Design Based on Rough Set

Abstract:

Rough set has been applied into the conceptual design of products in order to choose the structure correct project rapidly according to the users’ demand. First of all, using rough set, the relation between features has been found out to set up the simple decision-making table and get the regulations of the project decision-making. According to the decision table, the redundant project is deleted to choose the correct project rapidly in the stage of conceptual design. The example of the rapid design of an astronomical doom shows this method is more objective and concise than those conventional methods and the processing speed is much faster.

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Periodical:

Key Engineering Materials (Volume 620)

Pages:

402-410

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.620.402

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Online since:

August 2014

Authors:

Ming Hai Yuan*, Shuo Cheng, Zhi Yong Dai, Ai Min Ji

Keywords:

Conceptual Design, Decision Table, Project Decision-Making, Rough Set (RS)

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References

[1] Z. Pawlak, B.J. Grazymala, R. Slowinski and et al: Rough Sets, Vol. 38 (2011) No. 11, pp.89-95.

Google Scholar

[2] Y. Feng and B. Zhang: The Comparison of Fuzzy Set and Rough Set, Vol. 38 (2011) No. 11, pp.1-5.

Google Scholar

[3] H.J. Zou: Conceptual Design of Mechanical System (China Machine Press, Beijing 2010).

Google Scholar

[4] H.J. Zou, L. Wang, S.G. Wang and et al: Summary of Conceptual Design and Its Methods for Mechanical Products , (2011) No. 2, pp.9-12.

Google Scholar

[5] R. SLOWINSKI and S.J. STEFANO: Rough-set Reasoning about Uncertain Data, Vol. 27 (1996), pp.229-244.

Google Scholar

[6] A. Skowron: The Rough Sets Theory and Evidence Theory, Vol. 13 (2010), pp.245-262.

Google Scholar

[7] Z. Pawlak: Vagueness and Uncertainty-a Rough Set Perspective, Vol. 11 (2005) No. 2, pp.227-232.

Google Scholar

[8] Y.T. Zhang and L. Gong: Principle & Technology of Data Mining (Publishing House of Electronics Industry, Beijing 2004).

Google Scholar

[9] Z.Q. Yao and F. Zhou: Progress in Modern Astronomical Enclosure, Vol. 21 (2003) No. 3, pp.206-218.

Google Scholar

[10] J. Becker, D.F. Beverungen and R. Knackstedt: The challenge of conceptual modeling for product-service systems: Status-quo and perspectives for reference models and modeling languages (University of Münster, German 2012), pp.33-66.

DOI: 10.1007/s10257-008-0108-y

Google Scholar

[11] X. Chang, A. Sahin and J. Terpenny: An ontology-based support for product conceptual design (2008), pp.755-762.

DOI: 10.1016/j.rcim.2008.03.004

Google Scholar

[12] Y. Kitamura and R. Mizoguchi: Ontology-based systematization of functional knowledge (Osaka University, Japan 2004) pp.327-351.

Google Scholar

[13] T. Berners-Lee, J. Hendler and O. Lassila: The Semantic Web (Massachusetts Institute of Technology, USA 2012) pp.34-43.

Google Scholar

[14] H. Komoto, T. Tomiyama, M. Nage and S. Silvester: Fourth International Symposium on Environmentally Conscious Design and Inverse Manufacturing (Tokyo, Japan , December 12- 14, 2005).

DOI: 10.1109/ecodim.2005.1619251

Google Scholar