Feasible combinatorial matrix theory
Logic in Computer Science
2013-03-27 v1 Combinatorics
Abstract
We show that the well-known Konig's Min-Max Theorem (KMM), a fundamental result in combinatorial matrix theory, can be proven in the first order theory with induction restricted to formulas. This is an improvement over the standard textbook proof of KMM which requires induction, and hence does not yield feasible proofs --- while our new approach does. is a weak theory that essentially captures the ring properties of matrices; however, equipped with induction is capable of proving KMM, and a host of other combinatorial properties such as Menger's, Hall's and Dilworth's Theorems. Therefore, our result formalizes Min-Max type of reasoning within a feasible framework.
Keywords
Cite
@article{arxiv.1303.6453,
title = {Feasible combinatorial matrix theory},
author = {Ariel Fernández and Michael Soltys},
journal= {arXiv preprint arXiv:1303.6453},
year = {2013}
}