Approximating the Weighted Minimum Label s-t Cut Problem

Abstract

In the weighted (minimum) Label s-t Cut problem, we are given a (directed or undirected) graph G=(V,E), a label set L = \1, 2, …, q \ with positive label weights \w\, a source s ∈ V and a sink t ∈ V. Each edge edge e of G has a label (e) from L. Different edges may have the same label. The problem asks to find a minimum weight label subset L' such that the removal of all edges with labels in L' disconnects s and t. The unweighted Label s-t Cut problem (i.e., every label has a unit weight) can be approximated within O(n2/3), where n is the number of vertices of graph G. However, it is unknown for a long time how to approximate the weighted Label s-t Cut problem within o(n). In this paper, we provide an approximation algorithm for the weighted Label s-t Cut problem with ratio O(n2/3). The key point of the algorithm is a mechanism to interpret label weight on an edge as both its length and capacity.