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Expert system for multidisciplinary analysis and optimization using ASTROS

Published online by Cambridge University Press:  27 February 2009

Hari K. Sarma ,
Ramana V. Grandhi  and
Ronald F. Taylor
Hari K. Sarma
Affiliation:
Department of Mechanical and Materials Engineering, Wright State University, Dayton, OH 45435, U.S.A.
Ramana V. Grandhi
Affiliation:
Department of Mechanical and Materials Engineering, Wright State University, Dayton, OH 45435, U.S.A.
Ronald F. Taylor
Affiliation:
University of Dayton Research Institute, Dayton, OH 45469, U.S.A.
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Abstract

This paper discusses the framework of a knowledge-based expert system environment to design aerospace structures under structural and aerodynamic constraints using ASTROS (Automated Structural Optimization program). ASTROS is a synthesis tool built around the NASTRAN finite element program. The knowledge base capabilities are discussed for synthesizing in statics, normal mode, steady and unsteady aerodynamic disciplines. A description of the two ASTROS advisor modules, the Editor/Bulk Data generator and Post-processor, is included. Experiences and issues involved in hierarchical representation of knowledge as menu options at different levels of abstraction are presented. Illustrative examples of the advisor in designing airframe structures are also included.

Type
Practicum Paper
Information
AI EDAM , Volume 4 , Issue 2 , May 1990 , pp. 117 - 128
Copyright
Copyright © Cambridge University Press 1990

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References

Arora, J. S. and Baenziger, G. 1986. Uses of artificial intelligence in design optimization. Computer Methods in Applied Mechanics and Engineering, 54, 303323.Google Scholar
Balchandaran, M. and Gero, J. S. 1987. A knowledge based approach to mathematical design, modelling and optimization. Engineering Optimization, 12, 91116.Google Scholar
Bannet, J. S. and Engelmore, R. S. 1979. SACON: a knowledge based consultant for structural analysis. Proceedings of Sixth International Joint Conference on Artificial Intelligence, Tokyo, Japan, Vol. 1, pp. 4749Google Scholar
Cagan, J. and Genberg, V. 1987. PASHTRAN: An expert consultant on two-dimensional finite element modeling techniques. Engineering with Computers, 2, 199208.CrossRefGoogle Scholar
Dym, C. L.Expert systems: new approaches to computer-aided engineering. Proceedings of the AIAA/ASME.ASCE/AHS 28th Structural Dynamics and Materials Conference, Palm Springs, California, Vol. 1, pp 99115.Google Scholar
Giarratano, J. and Riley, G. 1989. Expert Systems Principles and Programming. Boston. PWS-Kent.Google Scholar
Hajela, P. 1986. Expert systems in structural modelling and design. NATO Advanced Study Institute, Computer Aided Optimal Design, Portugal, Vol 3, pp. 384393.Google Scholar
Johnson, E. H. and Neill, D. J. 1988. ASTROS Applications Manual, AFWAL-TR–88–3028, Wright Patterson Air Force Base, Ohio.Google Scholar
Li, H. L. and Papalambros, P. 1985. A production system for use of global optimization knowledge. ASME Journal of Mechanisms, Transmissions and Automation in Design, 107, 277284.Google Scholar
Neill, D. J.Johnson, E. H. and Herendeen, D. 1988. ASTROS Users' Manual, AFWAL-TR–88–3028, Wright Patterson Air Force Base, Ohio.Google Scholar
Papalambros, P. 1986 Knowledge based systems in optimal design. NATO Advanced Study Institute, Computer Aided Optimal Design, Portugal, Vol. 3, pp. 311362.Google Scholar
Pecora, D.Zumsteg, J. R. and Crossman, F. W. 1985. An application of expert systems to composite structural design and analysis. Proceedings of the 1985 ASME Winter Annual Meeting, Miami, Florida, Vol. 1, pp. 135146.Google Scholar
Rivlin, J. M.Hsu, M. B. and Marcal, P. V. 1980. Knowledge based consultant for finite element structural analysis. AFWAL TR–80–3069, Wright Patterson Air Force Base, Ohio.Google Scholar
Rogers, J. L. Jr and Barthelemy, J. M. 1986. An expert system for choosing the best combination of options in a general-purpose program for automated design synthesis. Engineering with Computers, 1, 217227.Google Scholar
Rogers, J. L.Sobieszczanski, J. and Feyock, S. 1988. STRUTEX: A prototype knowledge-based system for initially configuring a structure to point loads in two dimensions NASA Technical Memorandum 100613.Google Scholar
Zumsteg, J. R. and Flaggs, D. L. 1985. Knowledge based analysis and design systems for aerospace structures. Proceedings of the 1985 ASME Winter Annual Meeting, Miami, Florida, Vol. 1, pp. 6778.Google Scholar