Finding large sticks and potatoes in polygons

Olaf Hall-Holt; Matthew J. Katz; Piyush Kumar; Joseph S.B. Mitchell; Arik Sityon

doi:10.1145/1109557.1109610

Finding large sticks and potatoes in polygons

Olaf Hall-Holt, Matthew J. Katz, Piyush Kumar, Joseph S.B. Mitchell, Arik Sityon

Department of Computer Science

Research output: Contribution to conference › Paper › peer-review

28 Scopus citations

Abstract

We study a class of optimization problems in polygons that seek to compute the "largest" subset of a prescribed type, e.g., a longest line segment ("stick"or a maximum-area triangle or convex body ("potato"). Exact polynomial-time algorithms are known for some of these problems, but their time bounds are high (e.g., O(n ⁷) for the largest convex polygon in a simple n-gon). We devise efficient approximation algorithms for these problems. In particular, we give near-linear time algorithms for a (1-ε)-approximation of the biggest stick, an O(1)-approximation of the maximum-area convex body, and a (1 - ε)-approximation of the maximum-area fat triangle or rectangle. In addition, we give efficient methods for computing large ellipses inside a polygon (whose vertices are a dense sampling of a closed smooth curve). Our algorithms include both deterministic and randomized methods, one of which has been implemented (for computing large area ellipses in a well sampled closed smooth curve).

Original language	English
Pages	474-483
Number of pages	10
DOIs	https://doi.org/10.1145/1109557.1109610
State	Published - 28 Feb 2006
Event	Seventeenth Annual ACM-SIAM Symposium on Discrete Algorithms - Miami, FL, United States Duration: 22 Jan 2006 → 24 Jan 2006

Conference

Conference	Seventeenth Annual ACM-SIAM Symposium on Discrete Algorithms
Country/Territory	United States
City	Miami, FL
Period	22/01/06 → 24/01/06

ASJC Scopus subject areas

Software
General Mathematics

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10.1145/1109557.1109610

Cite this

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AU - Hall-Holt, Olaf

AU - Katz, Matthew J.

AU - Kumar, Piyush

AU - Mitchell, Joseph S.B.

AU - Sityon, Arik

PY - 2006/2/28

Y1 - 2006/2/28

N2 - We study a class of optimization problems in polygons that seek to compute the "largest" subset of a prescribed type, e.g., a longest line segment ("stick"or a maximum-area triangle or convex body ("potato"). Exact polynomial-time algorithms are known for some of these problems, but their time bounds are high (e.g., O(n 7) for the largest convex polygon in a simple n-gon). We devise efficient approximation algorithms for these problems. In particular, we give near-linear time algorithms for a (1-ε)-approximation of the biggest stick, an O(1)-approximation of the maximum-area convex body, and a (1 - ε)-approximation of the maximum-area fat triangle or rectangle. In addition, we give efficient methods for computing large ellipses inside a polygon (whose vertices are a dense sampling of a closed smooth curve). Our algorithms include both deterministic and randomized methods, one of which has been implemented (for computing large area ellipses in a well sampled closed smooth curve).

AB - We study a class of optimization problems in polygons that seek to compute the "largest" subset of a prescribed type, e.g., a longest line segment ("stick"or a maximum-area triangle or convex body ("potato"). Exact polynomial-time algorithms are known for some of these problems, but their time bounds are high (e.g., O(n 7) for the largest convex polygon in a simple n-gon). We devise efficient approximation algorithms for these problems. In particular, we give near-linear time algorithms for a (1-ε)-approximation of the biggest stick, an O(1)-approximation of the maximum-area convex body, and a (1 - ε)-approximation of the maximum-area fat triangle or rectangle. In addition, we give efficient methods for computing large ellipses inside a polygon (whose vertices are a dense sampling of a closed smooth curve). Our algorithms include both deterministic and randomized methods, one of which has been implemented (for computing large area ellipses in a well sampled closed smooth curve).

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Finding large sticks and potatoes in polygons

Abstract

Conference

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