%0 Journal Article
%J Information and Computation
%D 1999
%T Improved Methods for Approximating Node Weighted Steiner Trees and Connected Dominating Sets
%A Guha,Sudipto
%A Khuller, Samir
%X In this paper we study the Steiner tree problem in graphs for the case when vertices as well as edges have weights associated with them. A greedy approximation algorithm based on “spider decompositions” was developed by Klein and Ravi for this problem. This algorithm provides a worst case approximation ratio of 2 ln k, wherekis the number of terminals. However, the best known lower bound on the approximation ratio is (1−o(1)) ln k, assuming thatNP⊈DTIME[nO(log log n)], by a reduction from set cover. We show that for the unweighted case we can obtain an approximation factor of ln k. For the weighted case we develop a new decomposition theorem and generalize the notion of “spiders” to “branch-spiders” that are used to design a new algorithm with a worst case approximation factor of 1.5 ln k. We then generalize the method to yield an approximation factor of (1.35+ε) ln k, for any constantε>0. These algorithms, although polynomial, are not very practical due to their high running time, since we need to repeatedly find many minimum weight matchings in each iteration. We also develop a simple greedy algorithm that is practical and has a worst case approximation factor of 1.6103 ln k. The techniques developed for this algorithm imply a method of approximating node weighted network design problems defined by 0–1 proper functions as well. These new ideas also lead to improved approximation guarantees for the problem of finding a minimum node weighted connected dominating set. The previous best approximation guarantee for this problem was 3 ln nby Guha and Khuller. By a direct application of the methods developed in this paper we are able to develop an algorithm with an approximation factor of (1.35+ε) ln nfor any fixedε>0.
%B Information and Computation
%V 150
%P 57 - 74
%8 1999/04/10/
%@ 0890-5401
%G eng
%U http://www.sciencedirect.com/science/article/pii/S0890540198927547
%N 1
%R 10.1006/inco.1998.2754