An energy-driven approach to linkage unfolding

doi:10.1145/997817.997840

An energy-driven approach to linkage unfolding

Full Text:

PDF

Buy this Article

Authors:	Jason H. Cantarella	University of Georgia
	Erik D. Demaine	Massachusetts Institute of Technology
	Hayley N. Iben	University of California, Berkeley
	James F. O'Brien	University of California, Berkeley

	2004 Article
Bibliometrics
· Downloads (6 Weeks): 0 · Downloads (12 Months): 19 · Downloads (cumulative): 311 · Citation Count: 9

Published in:

	· Proceeding
	SCG '04 Proceedings of the twentieth annual symposium on Computational geometry
	Pages 134-143 ACM New York, NY, USA ©2004 table of contents ISBN:1-58113-885-7 doi>10.1145/997817.997840

Tools and Resources

Buy this Article
Request Permissions
TOC Service:
- Email
- RSS
Save to Binder
Export Formats:
- BibTeX
- EndNote
- ACM Ref
Upcoming Conference:
- SoCG '13

Share:

|

Tags: algorithms carpenter's rule problem computational geometry geometric algorithms, languages, and systems gradient flow knot energy linkage reconfiguration theory unfolding

Feedback | Switch to single page view (no tabs)

**Javascript is not enabled and is required for the "tabbed view" or switch to the single page view**

Powered by

The ACM Digital Library is published by the Association for Computing Machinery. Copyright © 2013 ACM, Inc.
Terms of Usage Privacy Policy Code of Ethics Contact Us

Useful downloads:

Adobe Acrobat

QuickTime

Windows Media Player

Real Player

The ACM Guide to Computing Literature

All Tags

Export Formats

Save to Binder