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I have a set of 'n' nodes. A function returns a kind of distance between two nodes such that dist(a,c) may not be dist(a,b)+dist(b,c). Based on a threshold I connect certain nodes via edges. I wish to select the minimum number of nodes such that the set of these nodes and their immediate edge connected neighbours comprise the whole set of n nodes. Is an optimum solution possible? Scribbling on paper made me think centrality can help (degree,closeness?). Clustering occurred to me but the nodes in this graph don't have attributes. How do I select the min number of nodes? Thanks in advance

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I wish to select the minimum number of nodes such that the set of these nodes and their immediate edge connected neighbours comprise the whole set of n nodes

This is Dominating Set.

Since we can easily define d(u,v) = 1 for all nodes where (u,v) is an edge, we can easily reduce Vertex Cover to your problem.

Since Dominating-Set is NP-Complete, and the above is a polynomial reduction, so is your problem.

tl;dr: Your problem is NP-Complete and there is no known efficient solution to solve it optimally.

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  • This is actually Dominating Set, not Vertex Cover. It's related, but harder in some ways (e.g. it's not fixed-parameter tractable). Apr 18, 2016 at 21:07
  • @j_random_hacker Cheers. I am always confusing between the two. Thanks for noticing. fixed.
    – amit
    Apr 19, 2016 at 13:37

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