Abstract
Design systems that support automated reasoning and design generation demand more from design representations than traditional CAD systems. Those representations must capture aspects of the design, ranging from abstract, high-level specifications of design constraints to detailed descriptions of design geometry. They must support checking for errors and inconsistencies, and generating designs and design alternatives. Automated design systems cannot rely on a designer to make sense out of inadequate or disassociated representations. This paper presents an integrated set of design representations that support automated reasoning and design generation, paying careful attention to issues of scale and complexity. We have implemented these representations in our generative design system, Genesis, and used them in the design of aircraft systems.
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References
Braid, I. C.: 1978, On storing and changing shape information, Computer Graphics, 12(3), 252–256.
Callahan, S. and Heisserman, J.: 1997, A product representation to support process automation, in M. Pratt, R. D. Sriram, and M. J. Wozny (eds.), Product Modeling for Computer Integrated Design and Manufacture, Chapman and Hall, London.
Callahan, S.M.: 1997, Relating functional schematics to hierarchical mechanical assemblies, in C. Hoffman and W. Bronsvort (eds.), Fourth Symposium on Solid Modeling and Applications, ACM, New York, pp. 229–239.
Eastman, C.M.: 1981, The design of assemblies, Tech. Rep. 810197, SAE Technical Paper, van Emmerik, M., Rappoport, A. and Rossignac, J.: 1993, Simplifying interactive design of solid models: a hypertext approach, Visual Computer, 9, 239–254.
Heisserman, J. and Mattikalli, R.: 1998, Representing relationships in hierarchical assemblies, Proceedings of the 1998 ASME Design Engineering Technical Conferences, paper no. DETC98/DFM-5749.
Heisserman, J. A.: 1991, Generative Geometric Design and Boundary Solid Grammars, PhD thesis, Carnegie Mellon University, Pittsburgh, also available as Technical Report EDRC 02-18-91.
Lee, K., and Gossard, D. C.: 1985, A hierarchical data structure for representing assemblies: Part 1, Computer Aided Design, 17(1), 15–19.
Libardi Jr., E. C., Dixon, J. R., and Simmons, M. K.: 1988, Computer environments for the design of mechanical assemblies: A research review, Engineering with Computers, 3(3), 121–136.
Mantyla, M.: 1989, A modeling environment for top-down design of assembled products, Tech. Rep. RC 15250 (68063), IBM T.J. Watson Research Center, New York.
Mantyla, M.: 1990, The design browser-A hierarchical part-of graph browser, Research Report, Modeling Science Project, IBM T.J Watson Research Center, New York.
Rappoport, A.: 1993, A scheme for single instance representation in hierarchical assembly graphs, in B. Falcidieno and T.L. Kunii (eds.), IFIP Conference on Geometric Modeling in Computer Graphics, Springer, Berlin.
Rocheleau, D. N. and Lee, K.: 1987, System for interactive assembly modelling, Computer Aided Design, 19(2), 65–72.
Rossignac, J. P. B. and Nackman, L. R.: 1989, Interactive design with sequences of parameterized transformations, Intelligent CAD Systems 2: Implementational Issues, Springer-Verlag, Berlin, pp. 93–125.
Rossignac, J. R., P., B., Kim, J. and Mastrogiulio, J.: 1990, BIERPAC: Basic interactive editing for the relative positions of assembly components, Tech. Rep. RC 17339 (#76615), IBM Research Report.
Roy, U., Banerjee, P., and Liu, C. R.: 1989, Design of an automated assembly environment, Computer Aided Design, 21(9), 561–569.
Wesley, M. A., Lozano-Perez, T., Lieberman, L. I., Lavin, M. A., and Grossman, D. D.: 1980, A geometric modeling system for automated mechanical assembly, IBM J. Res. Develop., 24(1), 64–74.
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Heisserman, J., Callahan, S., Mattikalli, R. (2000). A Design Representation to Support Automated Design Generation. In: Gero, J.S. (eds) Artificial Intelligence in Design ’00. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-4154-3_27
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DOI: https://doi.org/10.1007/978-94-011-4154-3_27
Publisher Name: Springer, Dordrecht
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