## Abstract

Given two compact convex sets P and Q in the plane, we compute an image of P under a rigid motion that approximately maximizes the overlap with Q. More precisely, for any ε > 0, we compute a rigid motion such that the area of overlap is at least 1 -ε times the maximum possible overlap. Our algorithm uses O(l/ε) extreme point and line intersection queries on P and Q, plus O((1/ε^{2})log(1/ε)) running time. If only translations are allowed, the extra running time reduces to O((1/ε) log(1/ε)). If P and Q are convex polygons with n vertices in total, the total running time is O((1/ε) logn+(1/ε^{2}) log(1/ε)) for rigid motions and O((1/ε) log n + (1/ε) log(1/ε)) for translations.

Original language | English (US) |
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Pages | 356-363 |

Number of pages | 8 |

DOIs | |

State | Published - 2005 |

Externally published | Yes |

Event | 21st Annual Symposium on Computational Geometry, SCG'05 - Pisa, Italy Duration: Jun 6 2005 → Jun 8 2005 |

### Other

Other | 21st Annual Symposium on Computational Geometry, SCG'05 |
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Country/Territory | Italy |

City | Pisa |

Period | 06/6/05 → 06/8/05 |

### Bibliographical note

Funding Information:✩ Work by the first three authors was supported by the Brain Korea 21 Project, The School of Information Technology, KAIST, in 2005. Work by the fourth author was supported by the Hankuk University of Foreign Studies Research Fund of 2005. Work by the fifth author was supported by the National University of Singapore under grant R-252-000-166-112. * Corresponding author. E-mail addresses: [email protected] (H.-K. Ahn), [email protected] (O. Cheong), [email protected] (C.-D. Park), [email protected] (C.-S. Shin), [email protected] (A. Vigneron).

## Keywords

- Approximation algorithm
- Convex shape
- Pattern matching
- Sublinear algorithm

## ASJC Scopus subject areas

- Theoretical Computer Science
- Geometry and Topology
- Computational Mathematics