On eliminating square paths in a square lattice

On eliminating square paths in a square lattice

Removing the minimum number of vertices or points from a square lattice such that no square path exists is known as the square path problem. Finding this number as the size of the lattice increases is not so trivial. Results provided by Erdos-Posa and Bienstock-Dean provides an upper bound for elimi...

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Bibliographic Details
Main Author: Williams, Nikki LaTrina
Other Authors: Dean, Nathaniel
Format: Others
Language:English
Published: 2009
Subjects:
Mathematics
Operations Research
Computer Science
Online Access:http://hdl.handle.net/1911/17386
Description
Summary:Removing the minimum number of vertices or points from a square lattice such that no square path exists is known as the square path problem. Finding this number as the size of the lattice increases is not so trivial. Results provided by Erdos-Posa and Bienstock-Dean provides an upper bound for eliminating all cycles from a planar graph but sheds little light on the case of the square lattice. This paper provides several values for the minimum number of vertices needed to be removed such that no square path exists.

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