Colorings of Plane Graphs Without Long Monochromatic Facial Paths

Colorings of Plane Graphs Without Long Monochromatic Facial Paths

Let G be a plane graph. A facial path of G is a subpath of the boundary walk of a face of G. We prove that each plane graph admits a 3-coloring (a 2-coloring) such that every monochromatic facial path has at most 3 vertices (at most 4 vertices). These results are in a contrast with the results of Ch...

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Bibliographic Details
Main Authors: Czap Július, Fabrici Igor, Jendrol’ Stanislav
Format: Article
Language:English
Published: Sciendo 2021-08-01
Series:Discussiones Mathematicae Graph Theory
Subjects:
plane graph
facial path
vertex-coloring
05c10
05c15
Online Access:https://doi.org/10.7151/dmgt.2319
Description
Summary:Let G be a plane graph. A facial path of G is a subpath of the boundary walk of a face of G. We prove that each plane graph admits a 3-coloring (a 2-coloring) such that every monochromatic facial path has at most 3 vertices (at most 4 vertices). These results are in a contrast with the results of Chartrand, Geller, Hedetniemi (1968) and Axenovich, Ueckerdt, Weiner (2017) which state that for any positive integer t there exists a 4-colorable (a 3-colorable) plane graph Gt such that in any its 3-coloring (2-coloring) there is a monochromatic path of length at least t. We also prove that every plane graph is 2-list-colorable in such a way that every monochromatic facial path has at most 4 vertices.
ISSN:2083-5892

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