Further results on almost resolvable cycle systems and the Hamilton–Waterloo problem

Let Kv∗ denote the complete graph Kv if v is odd and Kv−I, the complete graph with the edges of a 1‐factor removed, if v is even. Given nonnegative integers v,M,N,α,β, the Hamilton–Waterloo problem asks for a 2‐factorization of Kv∗ into α CM‐factors and β CN‐factors, with a Cℓ‐factor of Kv∗ being a spanning 2‐regular subgraph whose components are ℓ‐cycles. Clearly, M,N≥3, M∣v, N∣v and α+β=⌊v−12⌋ are necessary conditions. In this paper, we extend a previous result by the same authors and show that for any odd v≠MNgcd(M,N) the above necessary conditions are sufficient, except possibly when α=1, or when β∈{1,3}. Note that in the case where v is odd, M and N must be odd. If M and N are odd but v is even, we also show sufficiency but with further possible exceptions. In addition, we provide results on 2‐factorizations of the complete equipartite graph and the lexicographic product of a cycle with the empty graph.

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“…For the case

g = 1

, we recall a result proven in [, Theorem and Lemma 3.15]. We point out that the exceptions

(m, n, α) = (3, 11, 6)

, (3, 13, 8), (3, 15, 8) in [, Theorem 1.6] have been dealt with in . We state this result as follows.…”

Section: Factoring Cmfalse[gnfalse] Into Cgm‐factors and Cgn‐factorsmentioning

confidence: 86%

“…If

(α, gcd (m!, n)) \neq (2, 1)

, or

(α, m) \neq (4, 3)

, or

(m, n, α) \notin {(3, 11, 6)

, (3, 13, 8), (3, 15, 8)}, we apply Theorem . Finally, the cases

(m, n, α) = (3, 11, 6)

, (3, 13, 8), (3, 15, 8) have been proven in . If

g = 3

or 5, then the result comes from Lemmas and , respectively.…”

Section: Factoring Cmfalse[gnfalse] Into Cgm‐factors and Cgn‐factorsmentioning

confidence: 99%

On the Hamilton–Waterloo problem with odd cycle lengths

Burgess

Danziger

Traetta

2017

J of Combinatorial Designs

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“…In this section, we present some preliminary notation and definitions, and provide lemma for the construction of a k ‐ARCS

(2 k + 1)

for

k \equiv 2 (mod 4)

. We point out that similar methods have been used for many years (see ).…”

Section: Preliminarymentioning

confidence: 99%

“…) presented the following open problem “The outstanding problem remains the construction of almost resolvable 2 k ‐cycle systems of order

4 k + 1

, since this will determine the spectrum for almost resolvable 2 k ‐cycle systems with the one possible exception of orders

8 k + 1

.” Since then, many authors have contributed to proving the following known conclusions. Theorem () Let

n \equiv 1 (mod 2 k)

. There exists a k ‐ARCS( n ) for any odd

k \geq 3

and any even

k \in {4, 6, 8, 10, 14}

, except for

(k, n) \in {(3, 7), (3, 13), (4, 9)}

and except possibly for

(k, n) \in {(8, 33), (14, 57)}

.…”

Section: Introductionmentioning

confidence: 99%

Almost resolvable k‐cycle systems with

Wang

Cao

2018

J of Combinatorial Designs

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“…Many infinite classes of HW(v; 3, 3x; α, β)s are constructed in [3]. For more results on the Hamilton-Waterloo problem, the reader can see [5,8,11,15,16,25]. In this paper, we focus on the existence of an HW(8mt; 8, m; α, β).…”

Section: Introductionmentioning

confidence: 99%

A note on the Hamilton–Waterloo problem with C8-factors and Cm
Wang
¹
,
Cao
²

2018
Discrete Mathematics
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Further results on almost resolvable cycle systems and the Hamilton–Waterloo problem

Cited by 13 publications

References 44 publications

On the Hamilton–Waterloo problem with odd cycle lengths

On the Hamilton–Waterloo problem with odd cycle lengths

Almost resolvable k‐cycle systems with

A note on the Hamilton–Waterloo problem with C8-factors and Cm
Wang
¹
,
Cao
²

2018
Discrete Mathematics
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Further results on almost resolvable cycle systems and the Hamilton–Waterloo problem

Cited by 13 publications

References 44 publications

On the Hamilton–Waterloo problem with odd cycle lengths

On the Hamilton–Waterloo problem with odd cycle lengths

Almost resolvable k‐cycle systems with

A note on the Hamilton–Waterloo problem with C8-factors and CmWang1, Cao2 2018Discrete MathematicsSelf Cite90100View full textAdd to dashboardCite

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About

A note on the Hamilton–Waterloo problem with C8-factors and Cm
Wang
¹
,
Cao
²

2018
Discrete Mathematics
Self Cite
9
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0
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