Partitions of planar (oriented) graphs into a connected acyclic and an independent set - Laboratoire d'Informatique et Systèmes
Pré-Publication, Document De Travail Année : 2024

Partitions of planar (oriented) graphs into a connected acyclic and an independent set

Résumé

A question at the intersection of Barnette's Hamiltonicity and Neumann-Lara's dicoloring conjecture is: Can every Eulerian oriented planar graph be vertex-partitioned into two acyclic sets? A CAI-partition of an undirected/oriented graph is a partition into a tree/connected acyclic subgraph and an independent set. Consider any plane Eulerian oriented triangulation together with its unique tripartition, i.e. partition into three independent sets. If two of these three sets induce a subgraph G that has a CAI-partition, then the above question has a positive answer. We show that if G is subcubic, then it has a CAI-partition, i.e. oriented planar bipartite subcubic 2-vertex-connected graphs admit CAI-partitions. We also show that series-parallel 2-vertex-connected graphs admit CAI-partitions. Finally, we present a Eulerian oriented triangulation such that no two sets of its tripartition induce a graph with a CAI-partition. This generalizes a result of Alt, Payne, Schmidt, and Wood to the oriented setting.

"A problem worthy of attack, proves its worth by fighting back!" (P. Erdős)

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Dates et versions

hal-04840861 , version 1 (16-12-2024)

Identifiants

  • HAL Id : hal-04840861 , version 1

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Stijn Cambie, François Dross, Kolja Knauer, Hoang La, Petru Valicov. Partitions of planar (oriented) graphs into a connected acyclic and an independent set. 2024. ⟨hal-04840861⟩
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