Facets for node-capacitated multicut polytopes from path-block cycles with two common nodes

• Published in: Discrete optimization Vol. 25; pp. 120 - 140
• Main Author: Sørensen, Michael M.
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.08.2017
• Subjects: Graph bisection; Graph partitioning; Polyhedral combinatorics; Graph partitioning; Polyhedral combinatorics; 90C27; 90C57; Graph bisection
• ISSN: 1572-5286; 1873-636X
• DOI: 10.1016/j.disopt.2017.03.001

A path-block cycle is a graph that consists of several cycles that all intersect in a common subset of nodes. The associated path-block-cycle inequalities are valid, and sometimes facet-defining, inequalities for polytopes in connection with graph partitioning problems and corresponding multicut problems. Special cases of the inequalities were introduced by De Souza and Laurent (1995) and shown to be facet-defining for the equicut polytope. Generalizations of these inequalities were shown by Ferreira et al. (1996) to be valid for node-capacitated graph partitioning polytopes on general graphs. This paper considers the special case of the inequalities, where all cycles intersect in two nodes, and establishes conditions under which these inequalities induce facets of node-capacitated multicut polytopes and bisection cut polytopes. These polytopes are associated with simple versions of the node-capacitated graph partitioning and bisection problems, where all node weights are assumed to be 1.