The VPN Tree Routing Conjecture for Outerplanar Networks
Abstract
The VPN Tree Routing Conjecture is a conjecture about the Virtual Private Network Design problem. It states that the symmetric version of the problem always has an optimum solution which has a tree-like structure. In recent work, Hurkens, Keijsper and Stougie (Proc. IPCO XI, 2005; SIAM J. Discrete Math., 2007) have shown that the conjecture holds when the network is a ring. A shorter proof of the VPN Conjecture for rings was found a few months ago by Grandoni, Kaibel, Oriolo and Skutella (to appear in Oper. Res. Lett., 2008). In their paper, Grandoni et al. introduce another conjecture, called the Pyramidal Routing Conjecture (or simply PR Conjecture), which implies the VPN Conjecture. Here we consider a strengthened version of the PR Conjecture. First we establish several general tools which can be applied in arbitrary networks. Then we use them to prove that outerplanar networks satisfy the PR Conjecture.
Cite
@article{arxiv.0711.2623,
title = {The VPN Tree Routing Conjecture for Outerplanar Networks},
author = {Samuel Fiorini and Gianpaolo Oriolo and Laura Sanità and Dirk Oliver Theis},
journal= {arXiv preprint arXiv:0711.2623},
year = {2008}
}