English

Approximating Source Location and Star Survivable Network Problems

Data Structures and Algorithms 2014-11-06 v3

Abstract

In Source Location (SL) problems the goal is to select a mini-mum cost source set SVS \subseteq V such that the connectivity (or flow) ψ(S,v)\psi(S,v) from SS to any node vv is at least the demand dvd_v of vv. In many SL problems ψ(S,v)=dv\psi(S,v)=d_v if vSv \in S, namely, the demand of nodes selected to SS is completely satisfied. In a node-connectivity variant suggested recently by Fukunaga, every node vv gets a "bonus" pvdvp_v \leq d_v if it is selected to SS. Fukunaga showed that for undirected graphs one can achieve ratio O(klnk)O(k \ln k) for his variant, where k=maxvVdvk=\max_{v \in V}d_v is the maximum demand. We improve this by achieving ratio min{p\lnk,k}O(ln(k/q))\min\{p^*\lnk,k\}\cdot O(\ln (k/q^*)) for a more general version with node capacities, where p=maxvVpvp^*=\max_{v \in V} p_v is the maximum bonus and q=minvVqvq^*=\min_{v \in V} q_v is the minimum capacity. In particular, for the most natural case p=1p^*=1 considered by Fukunaga, we improve the ratio from O(klnk)O(k \ln k) to O(ln2k)O(\ln^2k). We also get ratio O(k)O(k) for the edge-connectivity version, for which no ratio that depends on kk only was known before. To derive these results, we consider a particular case of the Survivable Network (SN) problem when all edges of positive cost form a star. We give ratio O(min{lnn,ln2k})O(\min\{\ln n,\ln^2 k\}) for this variant, improving over the best ratio known for the general case O(k3lnn)O(k^3 \ln n) of Chuzhoy and Khanna.

Cite

@article{arxiv.1210.4728,
  title  = {Approximating Source Location and Star Survivable Network Problems},
  author = {Guy Kortsarz and Zeev Nutov},
  journal= {arXiv preprint arXiv:1210.4728},
  year   = {2014}
}
R2 v1 2026-06-21T22:23:17.993Z