Exponentially many perfect matchings in cubic graphs

Esperet, Louis; Kardoš, František; King, Andrew D.; Kráľ, Daniel; Norine, Serguei

doi:10.1016/j.aim.2011.03.015

Cited by 50 publications

(37 citation statements)

References 16 publications

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“…Many important problems and conjectures can be reduced to snarks: the 4-colour theorem, Tutte's 5-flow conjecture, or the cycle double cover conjecture [6,8]. Problems regarding 1-factors (and thus 2-factors) tend to be challenging; a conjecture that there is exponentially many perfect matchings from 1970s has been proven only recently [4].…”

Section: Introductionmentioning

confidence: 99%

Avoiding 5-Circuits in 2-Factors of Cubic Graphs

Candráková¹,

Lukoťka²

2015

SIAM J. Discrete Math.

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Section: Introductionmentioning

confidence: 99%

Avoiding 5-Circuits in 2-Factors of Cubic Graphs

Candráková¹,

Lukoťka²

2015

SIAM J. Discrete Math.

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“…More precisely, for a triangulation

G

, there is a bijection between the spanning quadrangulations in

G

and the perfect matchings in

G^{*}

. It is known that the number of perfect matchings of a

2

‐edge‐connected cubic graph

H

is exponential in the order of

H

. Then, because of the existence of such a huge number of perfect matchings, we expect that there exists a perfect matching of

G^{*}

that corresponds to a spanning bipartite quadrangulation, and, respectively, a spanning nonbipartite quadrangulation.…”

Section: Motivationmentioning

confidence: 99%

“…Theorem 9 (Collins and Hutchinson, [7] and Yeh and Zhu, [31]) Every 6-regular toroidal triangulation is 4-colorable, with the following exceptions; (3,17), (3,18), (3,25), (4,17), (6,17), (6,25), (6,33), (7,19), (7,25), (7,26), (9,25), (10,25), (10,26), (10, 37), (14, 33)}.…”

mentioning

confidence: 99%

Spanning bipartite quadrangulations of even triangulations

Nakamoto

Noguchi

Ozeki

2018

Journal of Graph Theory

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A triangulation (resp., a quadrangulation) on a surface double-struckF is a map of a loopless graph (possibly with multiple edges) on double-struckF with each face bounded by a closed walk of length 3 (resp., 4). It is easy to see that every triangulation on any surface has a spanning quadrangulation. Kündgen and Thomassen proved that every even triangulation G (ie, each vertex has even degree) on the torus has a spanning nonbipartite quadrangulation, and that if G has sufficiently large edge width, then G also has a bipartite one. In this paper, we prove that an even triangulation G on the torus admits a spanning bipartite quadrangulation if and only if G does not have K 7 as a subgraph, and moreover, we give some other results for the problem.

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“…This assumption holds in many cases: every triangle mesh without boundary has a dual perfect matching [EKK*11]. For meshes with boundary, however, a perfect matching does not always exist (in particular for meshes with an odd number of triangles).…”

Section: Layout Structure Determinationmentioning

confidence: 99%

Partitioning Surfaces Into Quadrilateral Patches: A Survey

Campen

2017

Computer Graphics Forum

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The efficient and practical representation and processing of geometrically or topologically complex shapes often demands a partitioning into simpler patches. Possibilities range from unstructured arrangements of arbitrarily shaped patches on the one end, to highly structured conforming networks of all‐quadrilateral patches on the other end of the spectrum. Due to its regularity, this latter extreme of conforming partitions with quadrilateral patches, called quad layouts, is most beneficial in many application scenarios, for instance enabling the use of tensor‐product representations based on splines or Bézier patches, grid‐based multi‐resolution techniques and discrete pixel‐based map representations. However, this type of partition is also most complicated to create due to the strict inherent structural restrictions. Traditionally often performed manually in a tedious and demanding process, research in computer graphics and geometry processing has led to a number of computer‐assisted, semi‐automatic, as well as fully automatic approaches to address this problem more efficiently. This survey provides a detailed discussion of this range of methods, treats their strengths and weaknesses and outlines open problems in this field of research.

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Exponentially many perfect matchings in cubic graphs

Cited by 50 publications

References 16 publications

Avoiding 5-Circuits in 2-Factors of Cubic Graphs

Avoiding 5-Circuits in 2-Factors of Cubic Graphs

Spanning bipartite quadrangulations of even triangulations

Partitioning Surfaces Into Quadrilateral Patches: A Survey

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