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On Piercing Sets of Objects
Mathhew J. Katz and Frank Nielsen
Abstract:
A set of objects is k-pierceable if there exists a set of k
points such that each object is pierced by (contains) at
least one of these points. Finding the smallest integer k
such that a set is k-pierceable is NP-complete. In this paper, we
present efficient algorithms for finding a piercing set (i.e., a set of k
points a above) for several classes of convex objects and small values
of k. In some of the cases, our algorithms imply known as well as new Helly-type
theorems, thus adding to previous results of Danzer and Grunbaum who studied the case of
axis-parallel boxes. The problems studied here are related
to the collection of optimization problems in which one
seeks the smallest scaling factor of a centrally symmetric object K, so that a set of points
can be covered by k congruent homothets of K
Download the PDF paper (246 Kb size, 15 pages, 2 figures) © ACM Press.
The original publication is available at ACM.
doi: 10.1145/237218.237253
Bibtex entry:
@InProceedings{kn-pso-1996,
author = "Matthew J. Katz and Frank Nielsen",
title = "On Piercing Sets of Objects",
booktitle = "Symposium on Computational Geometry",
pages = "113-121",
year = "1996",
doi ="10.1145/237218.237253"
}
Related publications:
- Matthew J. Katz and Frank Nielsen,
On Piercing Sets of Objects,
ACM Symposium on Computational Geometry (SoCG),
pp. 113-121, 1996.
- Matthew J. Katz and Frank Nielsen,
On Piercing Sets of Objects (in PDF),
INRIA RR-2874,
1996.
- Frank Nielsen,
On Point Covers of c-Oriented Polygons,
Theoretical Computer Science (Elsevier Computer Science),
Volume 265, Issue 1-2, pp. 17-29, 2001.
- Frank Nielsen,
On Point Covering of c-Oriented Polygons,
Canadian Conference on Computational Geometry (CCCG),
pp. 6-7, 1998.
- Frank Nielsen,
Fast Stabbing of Boxes in High Dimensions,
Theoretical Computer Science (Elsevier Science),
Volume 246, Issue 1-2, 2000.
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Last updated, 2003.