Ville Junnila, Tero Laihonen
Published 2012-02-03Version 1
An $r$-identifying code in a graph $G = (V,E)$ is a subset $C \subseteq V$ such that for each $u \in V$ the intersection of $C$ and the ball of radius $r$ centered at $u$ is non-empty and unique. Previously, $r$-identifying codes have been studied in various grids. In particular, it has been shown that there exists a 2-identifying code in the hexagonal grid with density 4/19 and that there are no 2-identifying codes with density smaller than 2/11. Recently, the lower bound has been improved to 1/5 by Martin and Stanton (2010). In this paper, we prove that the 2-identifying code with density 4/19 is optimal, i.e. that there does not exist a 2-identifying code in the hexagonal grid with smaller density.
Locating-dominating sets and identifying codes in graphs of girth at least 5
Identifying codes of the direct product of two cliques
The Oriented Chromatic Number of the Hexagonal Grid is 6
![QR code for arXiv:1202.0670 [math.CO]](http://oss.arxitics.com/images/favicon.svg)