Abstract
For a graph G = ( V , E ) with vertex set V = V ( G ) and edge set E = E ( G ) , a Roman { 3 } -dominating function (R { 3 } -DF) is a function f : V ( G ) → { 0 , 1 , 2 , 3 } having the property that ∑ u ∈ N G ( v ) f ( u ) ≥ 3 , if f ( v ) = 0 , and ∑ u ∈ N G ( v ) f ( u ) ≥ 2 , if f ( v ) = 1 for any vertex v ∈ V ( G ) . The weight of a Roman { 3 } -dominating function f is the sum f ( V ) = ∑ v ∈ V ( G ) f ( v ) and the minimum weight of a Roman { 3 } -dominating function on G is the Roman { 3 } -domination number of G, denoted by γ { R 3 } ( G ) . Let G be a graph with no isolated vertices. The total Roman { 3 } -dominating function on G is an R { 3 } -DF f on G with the additional property that every vertex v ∈ V with f ( v ) ≠ 0 has a neighbor w with f ( w ) ≠ 0 . The minimum weight of a total Roman { 3 } -dominating function on G, is called the total Roman { 3 } -domination number denoted by γ t { R 3 } ( G ) . We initiate the study of total Roman { 3 } -domination and show its relationship to other domination parameters. We present an upper bound on the total Roman { 3 } -domination number of a connected graph G in terms of the order of G and characterize the graphs attaining this bound. Finally, we investigate the complexity of total Roman { 3 } -domination for bipartite graphs.
Highlights
In this paper, we introduce and study a variant of Roman dominating functions, namely, total Roman {3}-dominating functions
We present an upper bound on the total Roman {3}-domination number of a connected graph G in terms of the order of G and characterize the graphs attaining this bound
We introduce and study a variant of Roman dominating functions, namely, total Roman {3}-dominating functions
Summary
We introduce and study a variant of Roman dominating functions, namely, total Roman {3}-dominating functions. The total double Roman dominating function (TDRDF) on a graph G with no isolated vertex is a DRDF f on G with the additional property that the subgraph of G induced by the set {v ∈ V ( G ) : f (v) 6= 0} has no isolated vertices. Let G be a graph and f = (V0 , V1 , V2 ) a total Roman {2}-dominating function or a Roman dominating function for which the induced subgraph by V1 ∪ V2 has no isolated vertex. Let H be the family of connected graphs order 5 with ∆( G ) = 3 which have exactly one leaf or the tree T5 consisting of the path v1 v2 v3 v4 such that v2 is adjacent to a further vertex w.
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