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I am writing an algorithm to find the dominating set of a tournament graph. Is the minimum spanning tree of a directed graph equivalent to the dominating set of the graph? In other words, if I find the smallest MST for the tournament graph (by iterating through all of the vertices), can I then say this is equivalent to the dominating set of the graph?

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'smallest' is redundant in 'smallest MST'. MST is smallest by definition. –  J.F. Sebastian Nov 17 '08 at 18:40

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This Wikipedia article states that the problems of finding a dominating set and finding a spanning tree are equivalent. Given a spanning tree, the non-leaf nodes form a dominating set, and given a connected dominating set, you can easily obtain of the original graph joining one spanning tree of it with the vertexes that do not belong to it. However, finding a minimum spanning tree and finding a minimal dominating set are different problems. I guess that they are equivalent again, but I'm not sure.

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Not equivalent - Minimum Dominating Set is NP complete, Minimum spanning tree is solvable by Prim's or Kruskal's algorithm, at a cost of O(V^2) –  Thelema May 17 '10 at 3:42

No, because the MST will include all vertices of the graph, and the dominating set might not.

See for example the graph here: http://en.wikipedia.org/wiki/Tournament_(graph_theory) Vertices 2 and 4 create a dominating set, and not a spanning tree.

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I have not yet figured out how to get Wikipedia URLs with parentheses to come out properly in SO. Any suggestions? –  sep332 Nov 17 '08 at 18:44
    
s/\(/%28/; s/\)/%29/ –  J.F. Sebastian Nov 17 '08 at 18:51

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