English

A node-capacitated Okamura-Seymour theorem

Combinatorics 2015-06-18 v1 Discrete Mathematics Metric Geometry

Abstract

The classical Okamura-Seymour theorem states that for an edge-capacitated, multi-commodity flow instance in which all terminals lie on a single face of a planar graph, there exists a feasible concurrent flow if and only if the cut conditions are satisfied. Simple examples show that a similar theorem is impossible in the node-capacitated setting. Nevertheless, we prove that an approximate flow/cut theorem does hold: For some universal c > 0, if the node cut conditions are satisfied, then one can simultaneously route a c-fraction of all the demands. This answers an open question of Chekuri and Kawarabayashi. More generally, we show that this holds in the setting of multi-commodity polymatroid networks introduced by Chekuri, et. al. Our approach employs a new type of random metric embedding in order to round the convex programs corresponding to these more general flow problems.

Keywords

Cite

@article{arxiv.1209.2744,
  title  = {A node-capacitated Okamura-Seymour theorem},
  author = {James R. Lee and Manor Mendel and Mohammad Moharrami},
  journal= {arXiv preprint arXiv:1209.2744},
  year   = {2015}
}

Comments

30 pages, 5 figures

R2 v1 2026-06-21T22:04:05.279Z