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What is the minimum cost to make an undirected weighted(positive weight) graph disconnected.

i mean i have to find out those edges which removal disconnect the graph and their cost is minimized.

I have following ideas...

1.find out all the bridges of the graph . then the bridge edge of minimum weight wiil be the ans.

2.if there is no bridge that means all the nodes are in a cycle(i'm not sure about it). then i sort the edge according to their weight and the sum of the two minimum edge weight will be the ans.

The graph has no self loop.

Is this algo correct?

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1 Answer 1

This question looks to be the same question answered by the study of "minimum cuts" in graphs. I would recommend the following reading here and here to learn more about why it works from a graph theoretic point of view - the link provides some pseudocode as well.

Regarding your proposed algorithm, finding the bridges in a graph may get tricky.. you would have to inspect both endpoints and their local structure to confirm the existence of a bridge.. using edge contraction perhaps would be simpler to implement.

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sorry, but i couldn't understand how to solve my problem with this theory. –  palatok Oct 3 '12 at 3:31
1  
You are asking for "those edges which removal would disconnect the graph". A set of edges that disconnects a graph is called a "cutset". When you want to minimize the total cost of the edges in your cutset, you are looking for the minimum cutset which is defined as the cutset with the lowest weight. –  Origin Oct 3 '12 at 8:49

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