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Basically, I need to have a shortest path in a graph that covers all the vertex and coming back to the source, repetition of any vertex is ok so long as it is the shortest path...

My algo is starting from source, I run a dikstra algo to find the shortest path. Then I choose the smallest weighted unreached vertex and run the dikstra again as the chosen vertex as the source, I keep doing it until all vertex is done.. Then from the last vertex use dikstra again to find the shortest path back to the original source.. I tried, but it seems to fail and I cannot find the reason..

Can anyone help??

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This problem is NP-complete, as it provides a hamiltonian cycle if any exists. Such a cycle would indeed be minimal. Do you need the exact minimum ? –  Vincent Nivoliers Oct 30 '12 at 14:57
Take a look at en.wikipedia.org/wiki/Travelling_salesman_problem. Your problem is a relaxed version of Traveling Salesman Problem. –  darksky Oct 30 '12 at 15:29

1 Answer 1

Since any vertex can be visited more that once you are basically looking for the shortest closed walk in a graph. The problem with your approach is that dikstra will only find the shortest path from the chosen node back to the source . This will produce a star type solution, where you have multiple paths coming out of the source vertex. Which could be longer then a walk.

This is an NP problem, as Vincent stated, but you could try implementing it using a random walk algorithm. Or look at the Traveling Salesman Walk Problem (http://dspace.mit.edu/handle/1721.1/33668)

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