On three outer-independent domination related parameters in graphs

Abstract

Let G be a graph and let S⊂eq V(G). The set S is a double outer-independent dominating set of G if |N[v] D|≥2, for all v∈ V(G), and V(G) S is independent. Similarly, S is a 2-outer-independent dominating set, if every vertex from V(G) S has at least two neighbors in S and V(G) S is independent. Finally, S is a total outer-independent dominating set if every vertex from V(G) has a neighbor in S and the complement of S is an independent set. The double, total or 2-outer-independent domination number of G is the smallest possible cardinality of any double, total or 2-outer-independent dominating set of G, respectively. In this paper, the 2-outer-independent, the total outer-independent and the double outer-independent domination numbers of graphs are investigated. We prove some Nordhaus-Gaddum type inequalities, derive their computational complexity and present several bounds for them.