Interactive design, analysis, and illustration of assemblies

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Interactive design, analysis, and illustration of assemblies

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Symposium on Interactive 3D Graphics archive
Proceedings of the 1995 symposium on Interactive 3D graphics table of contents

Monterey, California, United States

Pages: 27 - 34

Year of Publication: 1995

ISBN:0-89791-736-7

Authors

Elena Driskill	Department of Computer Science, University of Utah, Salt Lake City, Utah
Elaine Cohen	Department of Computer Science, University of Utah, Salt Lake City, Utah

Sponsor

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

Publisher

ACM New York, NY, USA

Bibliometrics

Downloads (6 Weeks): 6, Downloads (12 Months): 25, Citation Count: 4

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abstract references cited by index terms collaborative colleagues

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ABSTRACT

We present an interactive approach for helping designers describe, revise, analyze, and illustrate assemblies of mechanical parts within the context of a common data structure and set of assembly features. This paper describes an implementation used to test the validity of these ideas, which has been integrated into an existing spline-based geometric modeling system.Several interactive tools have been implemented. An assembly planner allows the user to design the assembly structure before modeling any geometry by using a combination of top-down and bottom-up design. After the geometry of each part in the assembly, together with its assembly features, has been modeled, the user can interactively put the parts together and perform degree of freedom analysis on them by using another tool. Such an interactive approach can help a designer determine whether the design is sound before the entire assembly is put together. Finally, once all part connections have been established, an exploded view generation tool can help the designer create an informative illustration of the product for the purposes of documentation or further visual analysis.

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	De Fazio, Thomas L. and Daniel E. Whitney, Simplified Generation of All Mechanical Assembly Sequences, IEEE Trurzsncriorzs on Roborics and Aurornarion. RA-3(6), 1987. pp. 640-658.
	2	Eastman, Charles M., The Design of Assemblies, SAE Technical Paper No. 810197, Society of Automotive Engineers. Inc.. I98 I.
	3	Gui. Jin-Kang and Martti Mantyla, Functional Understanding of Assembly Modelling, Computer-Aided Design, June 1994. pp. 435-451.
	4	Kunwoo Lee , David C. Gossard, A hierarchical data structure for representing assemblies: part I, Computer-Aided Design, v.17 n.1, p.15-19, Jan./Feb. 1985 [doi>10.1016/0010-4485(85)90005-3]
	5	Lee, Sukhan and Yeong Gil Shin, Assembly Planning Based on Subassembly Extraction, Proceedings of the 1990 IEEE Internntionul Conference on Robotics and Automrrfion. 1990, pp. I 606- 161 I.
	6	Licberman. L. I. and M. A. Wesley, AUTOPASS: An Automatic Programming System for Computer Controlled Mechanical Assembly, IBM Journal of Research and Developmenr, 2 I(4). 1977, pp. 32 l-333.
	7	Mattikalli. Raju S., Pradeep K. Khosla, and Yangsheng Xu, Subassembly Identification and Motion Generation for Assembly: A Geometric Approach, Engineering Design Research Center. Carnegie Mellon University. preprint.
	8	Shah, Jami J., Conceptual Development of Form Features and Feature Modelers, Research in Engineering Design. (2) 1991. pp. 93-108.
	9	Strip, David and Anthony A. Maciejewski, Archimedes: an Experiment in Automating Mechanical Assembly. preprint. to be presented at the lntcrnational Symposium on Robotics and Automation, July 1990, Vancouver, B.C.
	10	Talukdar. Sarosh N. and Scrgio W. Sedas, A Disassembly Planner, Technical Report EDRC-OS- I O-87, Engineering Design Research Center, Carnegie Mellon University, 1987.
	11	Tilove. Robert B., Extending Solid Modeling Systems for Mechanism Design and Kinematic Simulation, IEEE Computer Graphics and Applications, May/June 1983, pp. 9-19.
	12	Woo, Tony C. and Debasish Dutta, Automatic Disassembly and Total Ordering in Three Dimensions, preprint, to appear in ASME Trunsmtions, Journnl of Mechanical Design. (during or after 1989, exact year unknown).

CITED BY 4

	Maneesh Agrawala , Doantam Phan , Julie Heiser , John Haymaker , Jeff Klingner , Pat Hanrahan , Barbara Tversky, Designing effective step-by-step assembly instructions, ACM Transactions on Graphics (TOG), v.22 n.3, July 2003
	Wilmot Li , Maneesh Agrawala , David Salesin, Interactive image-based exploded view diagrams, Proceedings of the 2004 conference on Graphics interface, p.203-212, May 17-19, 2004, London, Ontario, Canada
	Kimio Kashiwazaki , Yukiaki Kikuta , Makoto Ohigashi , Yuzuru Tanaka, Interactive 3D learning contents based on 3D meme media architecture, Proceedings of the 4th international symposium on Information and communication technologies, January 03-06, 2005, Cape Town, South Africa
	Wilmot Li , Maneesh Agrawala , Brian Curless , David Salesin, Automated generation of interactive 3D exploded view diagrams, ACM Transactions on Graphics (TOG), v.27 n.3, August 2008