research-article

On asymptotic packing of geometric graphs

Authors:

Daniel W. Cranston,

Jiaxi Nie,

Jacques Verstraëte,

Alexandra WesolekAuthors Info & Claims

Volume 322, Issue C

Pages 142 - 152

https://doi.org/10.1016/j.dam.2022.07.030

Published: 15 December 2022 Publication History

Abstract

A set of geometric graphs is geometric-packable if it can be asymptotically packed into every sequence of drawings of the complete graph K n. For example, the set of geometric triangles is geometric-packable due to the existence of Steiner Triple Systems. When G is the 4-cycle (or 4-cycle with a chord), we show that the set of plane drawings of G is geometric-packable. In contrast, the analogous statement is false when G is nearly any other planar Hamiltonian graph (with at most 3 possible exceptions). A convex geometric graph is convex-packable if it can be asymptotically packed into the convex drawings of the complete graphs. For each planar Hamiltonian graph G, we determine whether or not a plane G is convex-packable. Many of our proofs explicitly construct these packings; in these cases, the packings exhibit a symmetry that mirrors the vertex transitivity of K n.

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Index Terms

On asymptotic packing of geometric graphs
1. Mathematics of computing
  1. Discrete mathematics
    1. Combinatorics
      1. Combinatorial algorithms
    2. Graph theory
2. Theory of computation
  1. Design and analysis of algorithms
  2. Randomness, geometry and discrete structures
    1. Computational geometry

Index terms have been assigned to the content through auto-classification.

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Published In

cover image Discrete Applied Mathematics

Discrete Applied Mathematics Volume 322, Issue C

Dec 2022

481 pages

ISSN:0166-218X

Issue’s Table of Contents

Elsevier B.V.

Publisher

Elsevier Science Publishers B. V.

Netherlands

Publication History

Published: 15 December 2022

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Abstract

References

Index Terms

Recommendations

On the Heterochromatic Number of Hypergraphs Associated to Geometric Graphs and to Matroids

Noncrossing Hamiltonian paths in geometric graphs

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