Cyclewidth and the Grid Theorem for Perfect Matching Width of Bipartite Graphs

02/04/2019

∙

A connected graph G is called matching covered if every edge of G is contained in a perfect matching. Perfect matching width is a width parameter for matching covered graphs based on a branch decomposition. It was introduced by Norine and intended as a tool for the structural study of matching covered graphs, especially in the context of Pfaffian orientations. Norine conjectured that graphs of high perfect matching width would contain a large grid as a matching minor, similar to the result on treewidth by Robertson and Seymour. In this paper we obtain the first results on perfect matching width since its introduction. For the restricted case of bipartite graphs, we show that perfect matching width is equivalent to directed treewidth and thus the Directed Grid Theorem by Kawarabayashi and Kreutzer for directed implies Norine's conjecture.

READ FULL TEXT

Cyclewidth and the Grid Theorem for Perfect Matching Width of Bipartite Graphs

Braces of Perfect Matching Width 2

Excluding a Planar Matching Minor in Bipartite Graphs

Adapting the Directed Grid Theorem into an FPT Algorithm

How many matchings cover the nodes of a graph?

A Flat Wall Theorem for Matching Minors in Bipartite Graphs

Decomposition of (infinite) digraphs along directed 1-separations

Constant congestion brambles in directed graphs

Cyclewidth and the Grid Theorem for Perfect Matching Width of Bipartite Graphs

Related Research

Braces of Perfect Matching Width 2

Excluding a Planar Matching Minor in Bipartite Graphs

Adapting the Directed Grid Theorem into an FPT Algorithm

How many matchings cover the nodes of a graph?

A Flat Wall Theorem for Matching Minors in Bipartite Graphs

Decomposition of (infinite) digraphs along directed 1-separations

Constant congestion brambles in directed graphs