English

Discrete Decreasing Minimization, Part I: Base-polyhedra with Applications in Network Optimization

Combinatorics 2019-07-10 v3

Abstract

Borradaile et al. (2017) investigated orientations of an undirected graph in which the sequence of in-degrees of the nodes is lexicographically minimal, which we call decreasingly minimal (=dec-min). They proved that an orientation is dec-min if and only if there is no dipath from ss to tt with in-degrees ϱ(t)ϱ(s)+2\varrho (t) \geq \varrho (s)+2. They conjectured that an analogous statement holds for strongly connected dec-min orientations, as well. We prove not only this conjecture but its extension to kk-edge-connected orientations, as well. We also provide a solution to a discrete version of Megiddo's lexicographically optimal (fractional) network flow problem (1974, 1977). Our main goal is to integrate these cases into a single framework. Namely, we characterize dec-min elements of an M-convex set (which is nothing but the set of integral points of an integral base-polyhedron), and prove that the set of dec-min elements is a special M-convex set arising from a matroid base-polyhedron by translation. The topic of our investigations may be interpreted as a discrete counter-part of the work by Fujishige (1980) on the (unique) lexicographically optimal base of a base-polyhedron. We also exhibit a canonical chain (and partition) associated with a base-polyhedron. We also show that dec-min elements of an M-convex set are exactly those which minimize the square-sum of components, and describe a new min-max formula for the minimum square-sum. Our approach gives rise to a strongly polynomial algorithm for computing a dec-min element, as well as the canonical chain. The algorithm relies on a submodular function minimizer oracle in the general case, which can, however, be replaced by more efficient classic flow- and matroid algorithms in the relevant special cases.

Keywords

Cite

@article{arxiv.1808.07600,
  title  = {Discrete Decreasing Minimization, Part I: Base-polyhedra with Applications in Network Optimization},
  author = {András Frank and Kazuo Murota},
  journal= {arXiv preprint arXiv:1808.07600},
  year   = {2019}
}

Comments

63 pages

R2 v1 2026-06-23T03:41:31.483Z