Half-integral linkages in highly connected directed graphs
Abstract
We study the half-integral -Directed Disjoint Paths Problem (kDDPP) in highly strongly connected digraphs. The integral kDDPP is NP-complete even when restricted to instances where , and the input graph is -strongly connected, for any . We show that when the integrality condition is relaxed to allow each vertex to be used in two paths, the problem becomes efficiently solvable in highly connected digraphs (even with as part of the input). Specifically, we show that there is an absolute constant such that for each there exists such that kDDPP is solvable in time for a -strongly connected directed graph . As the function grows rather quickly, we also show that kDDPP is solvable in time in -strongly connected directed graphs. We also show that for each deciding half-integral feasibility of kDDPP instances is NP-complete when is given as part of the input, even when restricted to graphs with strong connectivity .
Keywords
Cite
@article{arxiv.1611.01004,
title = {Half-integral linkages in highly connected directed graphs},
author = {Katherine Edwards and Irene Muzi and Paul Wollan},
journal= {arXiv preprint arXiv:1611.01004},
year = {2016}
}
Comments
20 pages