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Kempe-Locking Configurations

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  • James Tilley

    (61 Meeting House Road, Bedford Corners, NY 10549, USA)

Abstract

The 4-color theorem was proved by showing that a minimum counterexample cannot exist. Birkhoff demonstrated that a minimum counterexample must be internally 6-connected. We show that a minimum counterexample must also satisfy a coloring property that we call Kempe-locking. The novel idea explored in this article is that the connectivity and coloring properties are incompatible. We describe a methodology for analyzing whether an arbitrary planar triangulation is Kempe-locked. We provide a heuristic argument that a fundamental Kempe-locking configuration must be of low order and then perform a systematic search through isomorphism classes for such configurations. All Kempe-locked triangulations that we discovered have two features in common: (1) they are Kempe-locked with respect to only a single edge, say x y , and (2) they have a Birkhoff diamond with endpoints x and y as a subgraph. On the strength of our investigations, we formulate a plausible conjecture that the Birkhoff diamond is the only fundamental Kempe-locking configuration. If true, this would establish that the connectivity and coloring properties of a minimum counterexample are indeed incompatible. It would also imply the appealing conclusion that the Birkhoff diamond configuration alone is responsible for the 4-colorability of planar triangulations.

Suggested Citation

  • James Tilley, 2018. "Kempe-Locking Configurations," Mathematics, MDPI, vol. 6(12), pages 1-15, December.
    • Handle: RePEc:gam:jmathe:v:6:y:2018:i:12:p:309-:d:188828
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    References listed on IDEAS

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    1. James A. Tilley, 2018. "Using Kempe Exchanges to Disentangle Kempe Chains," The Mathematical Intelligencer, Springer, vol. 40(1), pages 50-54, March.
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