An improved approximation algorithm for the minimum-cost subset k-connected subgraph problem

Abstract

The minimum-cost subset k-connected subgraph problem is a cornerstone problem in the area of network design with vertex connectivity requirements. In this problem, we are given a graph G=(V,E) with costs on edges and a set of terminals T. The goal is to find a minimum cost subgraph such that every pair of terminals are connected by k openly (vertex) disjoint paths. In this paper, we present an approximation algorithm for the subset k-connected subgraph problem which improves on the previous best approximation guarantee of O(k2k) by Nutov (FOCS 2009). Our approximation guarantee, α(|T|), depends upon the number of terminals: [α(|T|) \ \ =\ \ O(|T|2) & if |T| < 2k O(k 2 k) & if 2k |T| < k2 O(k k) & if |T| k2] So, when the number of terminals is large enough, the approximation guarantee improves significantly. Moreover, we show that, given an approximation algorithm for |T|=k, we can obtain almost the same approximation guarantee for any instances with |T|> k. This suggests that the hardest instances of the problem are when |T|≈ k.