Paper by Martin L. Demaine

Reference:
Therese Biedl, Erik Demaine, Martin Demaine, Sylvain Lazard, Anna Lubiw, Joseph O'Rourke, Steve Robbins, Ileana Streinu, Godfried Toussaint, and Sue Whitesides, “On Reconfiguring Tree Linkages: Trees can Lock”, in Proceedings of the 10th Canadian Conference on Computational Geometry (CCCG'98), Montréal, Québec, Canada, August 10–12, 1998.

Abstract:
It is an open problem to determine whether a polygonal chain can be “straightened” in the plane if its links are not allowed to cross. This problem has been raised independently by several researchers, including J. Mitchell, and W. Lenhart and S. Whitesides [LW95]. In this paper, we propose a related question: whether a tree linkage can always be “straightened” in the plane, without allowing its links to cross. We prove that this is not always possible.

Comments:
This paper is also available from the electronic proceedings as http://cgm.cs.mcgill.ca/cccg98/proceedings/cccg98-biedl-reconfiguring.ps.gz.

Length:
The paper is 11 pages and the talk is 20 minutes.

Availability:
The paper is available in PostScript (467k).
See information on file formats.
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Related papers:
LockedTreeDAM (A Note on Reconfiguring Tree Linkages: Trees can Lock)
LockedTreeTR (On Reconfiguring Tree Linkages: Trees can Lock)

Related webpages:
Erik Demaine's Carpenter's Rule Theorem


See also other papers by Martin Demaine.
These pages are generated automagically from a BibTeX file.
Last updated November 17, 2022 by Martin Demaine.