Location-domination in line graphs
Abstract
A set of vertices of a graph is locating if every two distinct vertices outside have distinct neighbors in ; that is, for distinct vertices and outside , , where denotes the open neighborhood of . If is also a dominating set (total dominating set), it is called a locating-dominating set (respectively, locating-total dominating set) of . A graph is twin-free if every two distinct vertices of have distinct open and closed neighborhoods. It is conjectured [D. Garijo, A. Gonzalez and A. Marquez, The difference between the metric dimension and the determining number of a graph. Applied Mathematics and Computation 249 (2014), 487--501] and [F. Foucaud and M. A. Henning. Locating-total dominating sets in twin-free graphs: a conjecture. The Electronic Journal of Combinatorics 23 (2016), P3.9] respectively, that any twin-free graph without isolated vertices has a locating-dominating set of size at most one-half its order and a locating-total dominating set of size at most two-thirds its order. In this paper, we prove these two conjectures for the class of line graphs. Both bounds are tight for this class, in the sense that there are infinitely many connected line graphs for which equality holds in the bounds.
Cite
@article{arxiv.1506.02623,
title = {Location-domination in line graphs},
author = {Florent Foucaud and Michael A. Henning},
journal= {arXiv preprint arXiv:1506.02623},
year = {2016}
}
Comments
23 pages, 2 figures