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Consider the problem of finding a minimum weight connected subset T of edges from a weighted connected graph G. The weight of T is the sum of all the edge weights in T. (a) Why is this problem not just the minimum spanning tree problem? Hint: think negative weight edges. (b) Give an efficient algorithm to compute the minimum weight connected subset T.

(c) from Sciena Manual

(a) spanning tree minimizes summary tree weight, but minimum weight connected subset - every pair path weight, so we can reuse same negative edges to reduce each pair path?

(b) decision on the forehead: run dijkstra's alg n times, tracking previous pairs shortest paths. Seems not the best one, other idea - sort all edges and going from the largest - try to remove each and check connectivity...

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What's your question? We're not going to do your homework for you! – templatetypedef Jan 26 '11 at 20:32
I don't thinking finding shortest paths will work. The selected edges don't necessarily have to form a simple path between two nodes. For example: 1 - 2 (-1); 2 - 3 (-2); 2 - 4 (-4): you'd select all the edges, but they don't form a path. So I don't think this involves paths, at least not in a really obvious way. – IVlad Jan 26 '11 at 21:09
I could not parse your answer for (a). Could you clarify? – Ishtar Jan 26 '11 at 21:15

For part A:

Consider K3 (triangle) with each edge having a weight of -1.

What is the MST and what is the Minimum-weight connected subset?

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I think what you have given is a bad example. In your example, MST is the same as Minimum_Weight Connected subset – Jack May 2 '12 at 14:05

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