A note on Barnette’s conjecture

A note on Barnette’s conjecture

A well-known conjecture of Barnette states that every 3-connected cubic bipartite planar graph has a Hamiltonian cycle, which is equivalent to the statement that every 3-connected even plane triangulation admits a 2-tree coloring, meaning that the vertices of the graph have a 2-coloring such that ea...

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Veröffentlicht in:Discrete mathematics 2011-12, Vol.311 (23), p.2711-2715
1. Verfasser: Lu, Xiaoyun
Format: Artikel
Sprache:eng
Schlagworte:
Algebra
Applied sciences
Barnette conjecture
Color
Coloring
Combinatorics
Combinatorics. Ordered structures
Compatible graphs
Computer science
control theory
systems
Designs and configurations
Equivalence
Exact sciences and technology
Extendable graphs
Graph theory
Graphs
Information retrieval. Graph
Joints
Mathematical analysis
Mathematics
Non-extendable graphs
Plane triangulations
Planes
Reducible
Sciences and techniques of general use
Theoretical computing
Tree-coloring
Triangulation
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Zusammenfassung:A well-known conjecture of Barnette states that every 3-connected cubic bipartite planar graph has a Hamiltonian cycle, which is equivalent to the statement that every 3-connected even plane triangulation admits a 2-tree coloring, meaning that the vertices of the graph have a 2-coloring such that each color class induces a tree. In this paper we present a new approach to Barnette’s conjecture by using 2-tree coloring. A Barnette triangulation is a 3-connected even plane triangulation, and a B- graph is a smallest Barnette triangulation without a 2-tree coloring. A configuration is reducible if it cannot be a configuration of a B-graph. We prove that certain configurations are reducible. We also define extendable, non-extendable and compatible graphs; and discuss their connection with Barnette’s conjecture.
ISSN:0012-365X
1872-681X
DOI:10.1016/j.disc.2011.08.011