A tool-centric approach to designing composable feature recognizers

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A tool-centric approach to designing composable feature recognizers

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

Ann Arbor, Michigan, United States

Pages: 97 - 107

Year of Publication: 1999

ISBN:1-58113-080-5

Author

Daniel M. Gaines

Computer Science Department, Vanderbilt University

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): 0, Downloads (12 Months): 10, Citation Count: 2

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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	Fernando CastazSo, Daniel M. Gaines, and Caroline C. Hayes. Improving feature extraction through closely-coupled integration of fixture analysis. In ASME International Mechanical Engineering Congress and Exposition, November 1996.
	2	Wael Faheem, Caroline C. Hayes, Fernando CastazSo, and Daniel M. Gaines. Coordinator: A robust setup planner that detects fixture-feature interactions. In ASME Design Engineering Technical Conference, Atlanta, September 1998.
	3	Daniel M. Gaines, Fernando CastmSo, and Caroline C. Hayes. Achieving reconfigurable CAD/CAPP integration by reasoning from shape producing capabilities. In Proceedings of AAAI Intelligent Manufacturing Workshop, pages 53-62, Albuquerque, June 1996.
	4	Daniel M. Gaines and Caroline C. Hayes. CUSTOM-CUT: A customizable feature recognizer. Computer-Aided Design, 31(2):85-100, March 1999.
	5	Daniel M. Gaines, Caroline C. Hayes, and Yong Se Kim. Negative volume to process methods mapping for CAD/CAPP integration. In Proceedings of IJCAI Intelligent Manufacturing Workshop, pages 104-115, Montreal, August 1995.
	6	Satyandra K. Gupta , Thomas R. Kramer , Dana S. Nau , William C. Regli , Guangming Zhang, Building MRSEV models for CAM applications, Advances in Engineering Software, v.20 n.2-3, p.121-139, 1994 [doi>10.1016/0965-9978(94)90054-X]
	7	Jung-Hyun Han and Aristides A. G. Requicha. Integration of feature based design and feature recognition. In ASME International Computers in Engineering Conference, Boston, September 1995.
	8	Mitchell T. De Jong and Ales Fuchs. PART: Advanced manufacturing technology white paper. Technical report, ICEM Technologies, 1994.
	9	S. Joshi , T. C. Chang, Graph-based heuristics for recognition of machined features from a 3D solid model, Computer-Aided Design, v.20 n.2, p.58-66, March, 1988 [doi>10.1016/0010-4485(88)90050-4]
	10	Yong Se Kim. Volumetric feature recognition using convex decomposition. In J. Shah et al., editors, Advances in Feature Based Manufacturing, chapter 3. Elsevier, 1994.
	11	Putta Laxmiprasad and Sanjay Sarma. A featurefree approach to 5-axis tool path generation. In ASME Design Technical Conference, Sacramento, September 1997.
	12	Yaun-Shin Lee. Admissible tool orientation control of 5-axis complex surface machining for CAD/CAM systems. In ASME Design Technical Conference, Sacramento, September 1997.
	13	H. Sakurai. Decomposing a delta volume into maximal convex-edge volumes and sequencing them for machining. In Proc. A SME Computers In Engineering Conf., Minneapolis, September 1994.
	14	J. Shah, Y. Shen, and A. Shirur. Determination of machining volumes from extensible sets of design features. In J. Shah et al., editors, Advances in Feature Based Manufacturing, pages 129-157. Elsevier, 1994.
	15	Arvind Shirur and Jami J. Shah. Machining algebra for mapping volumes to machining operations. In ASME Design Engineering Technical Con}erence, Irvine, August 1996.
	16	Roger Stage, Mark Henderson, and Chell Roberts. A framework for representing and computing tool accessibility. In ASME Design Technical Conference, Sacramento, September 1997.
	17	J. H. Vandenbrande , A. A. G. Requicha, Spatial Reasoning for the Automatic Recognition of Machinable Features in Solid Models, IEEE Transactions on Pattern Analysis and Machine Intelligence, v.15 n.12, p.1269-1285, December 1993 [doi>10.1109/34.250845]
	18	T. Woo. Feature extraction by volume decomposition. In Con}erence on CAD/CAM Technology in Mechanical Engineering, pages 76-94, Cambridge, Mass., March 1982.

CITED BY 2

	Robert B. Jerard , Okhyun Ryou, NCML: a data exchange format for internet-based machining, International Journal of Computer Applications in Technology, v.26 n.1/2, p.75-82, June 2006
	Masaki Hilaga , Yoshihisa Shinagawa , Taku Kohmura , Tosiyasu L. Kunii, Topology matching for fully automatic similarity estimation of 3D shapes, Proceedings of the 28th annual conference on Computer graphics and interactive techniques, p.203-212, August 2001