Automatic adjustment of invalid feature models

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Automatic adjustment of invalid feature models

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ACM Symposium on Solid and Physical Modeling archive
Proceedings of the sixth ACM symposium on Solid modeling and applications table of contents

Ann Arbor, Michigan, United States

Pages: 267 - 277

Year of Publication: 2001

ISBN:1-58113-366-9

Authors

Alex Noort	Computer Graphics and CAD/CAM Group, Delft University of Technology, The Netherlands
Willem F. Bronsvoort	Computer Graphics and CAD/CAM Group, Delft University of Technology, The Netherlands

Sponsor

SIGGRAPH: ACM Special Interest Group on Computer Graphics and Interactive Techniques

Publisher

ACM New York, NY, USA

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Downloads (6 Weeks): 6, Downloads (12 Months): 15, Citation Count: 0

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ABSTRACT

In current feature modeling systems, all dimensions in a model have to be fully specified by the user. It is desirable that systems become more flexible in this respect, i.e. that non-critical dimensions in a model can be declared as variant, and that the model can be automatically adjusted when this is appropriate.

A method and an implementation to realize this will be described. The underlying feature model definition and validation approach will be introduced. Validation is done by a collection of constraint solvers. An overview of invalid situations in which automatic model adjustment can be applied will be given. The constrain solving scheme and, in particular, the automatic model adjustment strategies for different types of constraints will elaborated.

Applications in the areas of design by features, creating a member from a family of products, and feature conversion will be given. These will illustrate that automatic feature model adjustment is a very useful concept.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	Rafael Bidarra , Willem F. Bronsvoort, Validity maintenance of semantic feature models, Proceedings of the fifth ACM symposium on Solid modeling and applications, p.85-96, June 08-11, 1999, Ann Arbor, Michigan, United States [doi>10.1145/304012.304021]
	2	Rafael Bidarra , Willem F. Bronsvoort, On Families of Objects and their Semantics, Proceedings of the Geometric Modeling and Processing 2000, p.101, April 10-12, 2000
	3	R. Bidarra, K. J. de Kraker, and W. F. Bronsvoort. Representation and management of feature information in a cellular model. Computer-Aided Design, 30(4):301-313, 1998.
	4	M. H. P. J. Dohmen. Constraint-based Feature Validation. PhD thesis, Delft University of Technology, 1997.
	5	B. N. Freeman-Benson, J. Maloney, and A. Boming. The DeltaBlue algorithm: An incremental constraint hierarchy solver. Technical Report 89-08-06, University of Washington, USA, 1990.
	6	Christoph M. Hoffmann , Robert Joan-Arinyo, Symbolic constraints in constructive geometric constraint solving, Journal of Symbolic Computation, v.23 n.2-3, p.287-299, Feb./March 1997 [doi>10.1006/jsco.1996.0089]
	7	Horea T. Ilies , Vadim Shapiro, An approach to systematic part design, Proceedings of the fifth IFIP TC5/WG5.2 international workshop on geometric modeling in computer aided design on Product modeling for computer integrated design and manufacture, p.17-31, January 1997, Airlie, Virginia, United States
	8	G. A. Kramer. Solving Geometric Constraint Systems: a Case Study in Kinematics. The MIT Press, 1992.
	9	M. Mäntylä, A modeling system for top-down design of assembled products, IBM Journal of Research and Development, v.34 n.5, p.636-659, Sept. 1990
	10	A. Noort, R, Bidarra, and W. F. Bronsvoort. Satisfying interaction constraints. In: U. Cugini and M. Wozny, editors, Seventh IFIP WG 5.2 Workshop on Geometric Modeling: Fundamentals and Applications - GE07, pages 51-64. University of Parma, 2000.
	11	A. Noort and W. F. Bronsvoort. Automatic model adjustment in form feature conversion. In: CD-ROMProceedings of the 1999 ASME Design Engineering Technical Conferences'. ASME, 1999.
	12	W. C. Regli and D. M. Caines. Catalog of the NIST design, planning, and assembly repository. Technical report, National Institute of Standards and Technology, Gaithersburg, MD 20899, 1996. http://edge.msc.drexel.edu/repository.
	13	M. Sannella. The SkyBlue constraint solver. Technical Report 92-07-02, Dept. of Computer Science and Engineering, University of Washington, USA, 1992.
	14	Jami J. Shah , Jamie J. Shah , Martti Mantyla, Parametric and Feature Based CAD/Cam: Concepts, Techniques, and Applications, John Wiley & Sons, Inc., New York, NY, 1995