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I have read about how permutation graphs make many NP-complete problems a lot easier to solve. For example, the maximal clique problem, tree width problem etc. However, I am unable to understand the process of creating a permutation graph from a given graph G(V,E). How would one go about doing this?

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I think you are a bit mistaking. Permutation Graphs is a specific instance of graphs, which some problems that are generally NP-Hard, are solved specifically on those graph efficienetly - much like bi-partite graph [Though they are different kind of graphs, of course]. Not every graph is a permutation graph, And it is unlikely you can polynomially convert any graph to permutation graph - that would make P=NP. –  amit Mar 5 '12 at 14:13
    
@amit you should write that as an answer –  alestanis Nov 10 '12 at 10:31

1 Answer 1

You do not create a permutation graph from a graph, but from a permutation. The process is quite simple:

  1. write numbers 1 to n on a line, then
  2. write them again on a separate, parallel line according to the order in which they appear in your permutation;
  3. connect each element from the first line to the same element on the second line (1 to 1, 2 to 2, ..., n to n),
  4. label each such connection with the numbers that it connects (e.g. connection 2 to 2 receives label 2);
  5. the resulting permutation graph is obtained by treating each connection as a vertex and connecting two vertices whenever the corresponding connections intersect.

If that's still unclear, see the nice example on Wikipedia.

It is clear from the process that such a graph can always be constructed from any permutation; however, having a permutation graph may lead you to deduce several permutations that correspond to it.

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