Title :
On minimal two-edge-connected graphs
Author :
Cornaz, Denis ; Magnouche, Youcef ; Mahjoub, A. Ridha
Author_Institution :
LAMSADE, Univ. Paris-Dauphine, Paris, France
Abstract :
Given G = (V;E) an undirected graph and a nonnegative cost function c : E → ℚ, the 2-edge connected spanning subgraph problem (TECSP for short) is to find a two-edge connected subgraph HP = (V; F) of G with minimum cost (i.e., c(F) = Σe∈F c(e) is minimum). If c(e) > 0 for all e ∈ E then every optimal solution for TECSP is an inclusionwise minimal two-edge connected subgraph. In this paper we provide preliminary results, from a polyhedral point of view, concerning the inclusionwise minimal solutions of TECSP. This problem is clearly NP-Hard. We propose an ILP formulation for the problem and study the associated polytope for the wheels. Morever, we describe some valid inequalities and propose a branch-and-cut algorithm for the problem.
Keywords :
graph theory; integer programming; linear programming; tree searching; trees (mathematics); 2-edge connected spanning subgraph problem; ILP formulation; NP-hard problem; TECSP; branch-and-cut algorithm; inclusionwise minimal solutions; inclusionwise minimal two-edge connected subgraph; minimum cost; nonnegative cost function; optimal solution; polyhedral approach; polytopes; undirected graph; valid inequalities; wheels; Xenon; Two-edge-connected; branch-and-cut; polyhedral approach; separation problem;
Conference_Titel :
Control, Decision and Information Technologies (CoDIT), 2014 International Conference on
Conference_Location :
Metz
DOI :
10.1109/CoDIT.2014.6996902
