Suppose I am given a weighted, connected graph. I’d like to find a list of edges that can be removed from the graph leaving it split into two components and so that the sum of the weights of the removed edges is small. Ideally I’d like to have the minimal sum, but I’d settle for a reasonable approximation.
This seems like a hard problem. Are there any good algorithms for doing this?
If it helps, in my case the number of nodes is about 50 and the graph may be dense, so that most pairs of nodes will have an edge between them.
I believe what you’re looking for is an algorithm for computing the minimum cut. The Edmonds-Karp algorithm does this for flow networks (with source and sink vertices). Hao and Orlin (1994) generalize this to directed, weighted graphs. Their algorithm runs in O(nm lg(n^2/m)) for n vertices and m edges. Chekuri et al. (1997) compare several algorithms empirically, some of which have better big O’s than Hao and Orlin.