Sparsity and integrality gap transference bounds for integer programs
Abstract
We obtain new transference bounds that connect two active areas of research: proximity and sparsity of solutions to integer programs. Specifically, we study the additive integrality gap of the integer linear programs min{cx: x in P, x integer}, where P={x: Ax=b, x nonnegative} is a polyhedron in the standard form determined by an integer mxn matrix A and an integer vector b. The main result of the paper shows that the integrality gap drops exponentially in the size of support of the optimal solutions that correspond to the vertices of the integer hull of the polyhedron P. Additionally, we obtain a new proximity bound that estimates the distance from any point of P to its nearest integer point in P. The proofs make use of the results from the geometry of numbers and convex geometry.
Cite
@article{arxiv.2311.06605,
title = {Sparsity and integrality gap transference bounds for integer programs},
author = {Iskander Aliev and Marcel Celaya and Martin Henk},
journal= {arXiv preprint arXiv:2311.06605},
year = {2024}
}
Comments
The main change in the new version: Theorem 3 now applies to a vertex of a standard-form polyhedron. We also corrected several typos and made other minor changes