The complexity of the defensive domination problem in special graph classes
Title | The complexity of the defensive domination problem in special graph classes |
Publication Type | Journal Article |
Year of Publication | 2020 |
Authors | Ekim, T., A. M. Farley, and A. Proskurowski |
Journal | Discrete Mathematics |
Volume | 343 |
Pagination | 111665 |
ISSN | 0012-365X |
Keywords | Domination, Networks, Security |
Abstract | A k-attack on a graph G is a set of k distinct vertices {a1,…,ak} which are said to be under attack. A k-attack A can be countered or defended by a subset of defender vertices X if and only if there exists an injective function f from A to X, such that either f(ai)=ai or (ai,f(ai)) is an edge of G, for all i, 1≤i≤k. Given a graph G, a subset D of V is a k-defensive dominating set of G if and only if D can counter any k-attack in G. We consider the k-defensive dominating set problem. We start a systematic study on the complexity of the k-defensive dominating set problem. When k is not fixed, we show that it is already co-NP-hard to decide whether a given set of vertices is a k-defensive dominating set or not. However, if k is fixed, then we show that the problem is NP-complete even in split graphs. Subsequently, we consider special graph classes, namely paths, cycles, co-chain graphs and threshold graphs. We show that in each of these graph classes, a k-defensive dominating set of minimum size can be found in linear time even for non-fixed k. |
URL | https://www.sciencedirect.com/science/article/pii/S0012365X19303437 |
DOI | 10.1016/j.disc.2019.111665 |