Complexity of total dominator coloring in graphs
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Let G=(V,E) be a graph with no isolated vertices. A vertex v totally dominate a vertex w (w v), if v is adjacent to w. A set D ⊆ V called a total dominating set of G if every vertex v∈ V is totally dominated by some vertex in D. The minimum cardinality of a total dominating set is the total domination number of G and is denoted by γ_t(G). A total dominator coloring of graph G is a proper coloring of vertices of G, so that each vertex totally dominates some color class. The total dominator chromatic number χ_td(G) of G is the least number of colors required for a total dominator coloring of G. The Total Dominator Coloring problem is to find a total dominator coloring of G using the minimum number of colors. It is known that the decision version of this problem is NP-complete for general graphs. We show that it remains NP-complete even when restricted to bipartite, planar and split graphs. We further study the Total Dominator Coloring problem for various graph classes, including trees, cographs and chain graphs. First, we characterize the trees having χ_td(T)=γ_t(T)+1, which completes the characterization of trees achieving all possible values of χ_td(T). Also, we show that for a cograph G, χ_td(G) can be computed in linear-time. Moreover, we show that 2 ≤χ_td(G) ≤ 4 for a chain graph G and give characterization of chain graphs for every possible value of χ_td(G) in linear-time.
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