Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
An overview of the various models for engineering design process was presented. General Design Theory, Basic Model, Real Design Model were described. Type-2 fuzzy sets implementation on engineering design process was described.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
141--148
Opis fizyczny
Bibliogr. 20 poz., fig.
Twórcy
- Katedra Inżynierii Produkcji w Akademii Techniczno-Humanistycznej w Bielsku-Białej
Bibliografia
- [1] AKIN O.: An exploration of the design process. Design Methods and Theory 13(3–4):115–119, 1979
- [2] BLESSING LTM: A process-based approach to computer-supported engineering design. In: Proceedings of the workshop on knowledge sharing environment for creative design of higher quality and knowledge inventiveness, RACE-Institute, University of Toky, 1995
- [3] BRAHA D, MAIMON O.: A mathematical theory of design: foundations, algorithms, and applications. Kluwer, Boston, 1998
- [4] BRAHA D., REICH Y.: Topological structures for modelling engineering design processes. Research in Engineering Design 14, 2003, p. 185-199.
- [5] FITCH P., COOPER J.: Life cycle modelling for adaptive and variant design. Part 1: Methodology. Research in Engineering Design 15, 2005, p. 216-228.
- [6] FITCH P., COOPER J.: Life cycle modelling for adaptive and variant design. Part 2: Case Study. Research in Engineering Design 15, 2005, p. 229-241.
- [7] HALES C.: Analysis of the engineering design process in an industrial context. Dissertation, University of Cambridge, Gants Hill, Hampshire, 1987
- [8] KACPRZYK J.: Zbiory rozmyte w analizie systemowej. PWN, Warszawa 1986.
- [9] KIKUCHI, M. and Nagasaka, I., "On the Three Axioms of General Design Theory", Proceedings of the International Workshop of Emergent Synthesis '02, 69-76, 2002.
- [10] MENDEL J., John R.: Type-2 fuzzy sets made simple. IEEE Transactions on fuzzy systems Vol.10, no.2. 2002
- [11] MENDEL J.: Type-2 Fuzy Sets. IEEE Neural Network Society. 2003.
- [12] MENDEL J.: Uncertain rule-based fuzzy logic systems. Prentice-Hall PTR 2001.
- [13] MISHIMA, M. AND KIKUCHI, M., "General Design Theory and Genetic Epistemology", Proceedings of 15th International Conference on Engeineering Design, 2005.
- [14] PAUR J., KOSTURIAK J., V. LASSAK, M. GREGOR, J. MATUSZEK: Industrial Engineering. Politechnika Łódzka Filia w B-B, 1997.
- [15] REICH Y., KONDA S., SUBRAHMANIAN E., CUNNINGHAM D., DUTOIT A., PATRICK R., THOMAS M., WESTERBERG A.: Building agility for Developing Agile Design Information Systems. Research in Engineering Design 11, 1999, p.67-83
- [16] SEMINSKY J., SALOKY T.: General principles of engineering designing in frame of IMS. 3 th Symposium on Applied Machine Intelligence, Herlany, Slovakia, 2005.
- [17] TOMIYAMA, T. AND YOSHIKAWA, H..: Extended general design theory, Design Theory for CAD, Elsevier. Science Publishers BV, Amesterdam, pp.95-130, 1985
- [18] TOMIYAMA, T.: From general design theory to knowledge-intensive engineering, Artificial Intelligence for Engineering Design, Analysis and Manufacturing, Vol. 8, pp. 319-333, 1994
- [19] ULLMAN D, STAUFFER L, DIETTERICH T.: Preliminary results of experimental study of the mechanical design process. Technical Report 86–30–9, Oregon State University, 1986
- [20] YOSHIKAWA H.: General design theory and a CAD system. In Sata E, Warman E(eds) Manmachine communication in CAAD/CAM, Notrh-Holland, Amsterdam, 1981 pp. 35-58
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-30845131-b11b-47bb-a674-323c33335c08