English

Approximability of the Minimum Weighted Doubly Resolving Set Problem

Discrete Mathematics 2014-04-21 v1 Combinatorics

Abstract

Locating source of diffusion in networks is crucial for controlling and preventing epidemic risks. It has been studied under various probabilistic models. In this paper, we study source location from a deterministic point of view by modeling it as the minimum weighted doubly resolving set (DRS) problem, which is a strengthening of the well-known metric dimension problem. Let GG be a vertex weighted undirected graph on nn vertices. A vertex subset SS of GG is DRS of GG if for every pair of vertices u,vu,v in GG, there exist x,ySx,y\in S such that the difference of distances (in terms of number of edges) between uu and x,yx,y is not equal to the difference of distances between vv and x,yx,y. The minimum weighted DRS problem consists of finding a DRS in GG with minimum total weight. We establish Θ(lnn)\Theta(\ln n) approximability of the minimum DRS problem on general graphs for both weighted and unweighted versions. This is the first work providing explicit approximation lower and upper bounds for minimum (weighted) DRS problem, which are nearly tight. Moreover, we design first known strongly polynomial time algorithms for the minimum weighted DRS problem on general wheels and trees with additional constant k0k\ge0 edges.

Keywords

Cite

@article{arxiv.1404.4676,
  title  = {Approximability of the Minimum Weighted Doubly Resolving Set Problem},
  author = {Xujin Chen and Xiaodong Hu and Changjun Wang},
  journal= {arXiv preprint arXiv:1404.4676},
  year   = {2014}
}
R2 v1 2026-06-22T03:53:26.393Z