The complexity of total edge domination and some related results on trees

Abstract

For a graph G = (V, E) with vertex set V and edge set E, a subset F of E is called an edge dominating set (resp. a total edge dominating set) if every edge in E F (resp. in E) is adjacent to at least one edge in F, the minimum cardinality of an edge dominating set (resp. a total edge dominating set) of G is the edge domination number (resp. total edge domination number) of G, denoted by γ'(G) (resp. γt'(G)). In the present paper, we prove that the total edge domination problem is NP-complete for bipartite graphs with maximum degree 3. We also design a linear-time algorithm for solving this problem for trees. Finally, for a graph G, we give the inequality γ'(G)≤slant γ't(G)≤slant 2γ'(G) and characterize the trees T which obtain the upper or lower bounds in the inequality.