An s-Hamiltonian Line Graph Problem

Zhi-Hong Chen; Hong-Jian Lai; Wai-Chee Shiu; Deying Li

doi:10.1007/s00373-007-0727-y

An s-Hamiltonian Line Graph Problem

Zhi-Hong Chen
, Hong-Jian Lai
, Wai-Chee Shiu
, Deying Li

Research output: Contribution to journal › Article › peer-review

Abstract

For an integer k > 0, a graph G is k-triangular if every edge of G lies in at least k distinct 3-cycles of G. In (J Graph Theory 11:399–407 (1987)), Broersma and Veldman proposed an open problem: for a given positive integer k, determine the value s for which the statement “Let G be a k-triangular graph. Then L(G), the line graph of G, is s-hamiltonian if and only L(G) is (s + 2)-connected” is valid. Broersma and Veldman proved in 1987 that the statement above holds for 0 ≤ s ≤ k and asked, specifically, if the statement holds when s = 2k. In this paper, we prove that the statement above holds for 0 ≤ s ≤ max{2k, 6k − 16}.

Original language	American English
Journal	Scholarship and Professional Work - LAS
Volume	23
Issue number	3
DOIs	https://doi.org/10.1007/s00373-007-0727-y
State	Published - Jun 1 2007

Keywords

Edge Incident
Hamilton Cycle
Hamiltonian Graph
Line graph
Petersen Graph

Disciplines

Computer Sciences

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title = "An s-Hamiltonian Line Graph Problem",

abstract = " For an integer k > 0, a graph G is k-triangular if every edge of G lies in at least k distinct 3-cycles of G. In (J Graph Theory 11:399–407 (1987)), Broersma and Veldman proposed an open problem: for a given positive integer k, determine the value s for which the statement “Let G be a k-triangular graph. Then L(G), the line graph of G, is s-hamiltonian if and only L(G) is (s + 2)-connected” is valid. Broersma and Veldman proved in 1987 that the statement above holds for 0 ≤ s ≤ k and asked, specifically, if the statement holds when s = 2k. In this paper, we prove that the statement above holds for 0 ≤ s ≤ max\{2k, 6k − 16\}.",

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author = "Zhi-Hong Chen and Hong-Jian Lai and Wai-Chee Shiu and Deying Li",

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TY - JOUR

T1 - An s-Hamiltonian Line Graph Problem

AU - Chen, Zhi-Hong

AU - Lai, Hong-Jian

AU - Shiu, Wai-Chee

AU - Li, Deying

PY - 2007/6/1

Y1 - 2007/6/1

N2 - For an integer k > 0, a graph G is k-triangular if every edge of G lies in at least k distinct 3-cycles of G. In (J Graph Theory 11:399–407 (1987)), Broersma and Veldman proposed an open problem: for a given positive integer k, determine the value s for which the statement “Let G be a k-triangular graph. Then L(G), the line graph of G, is s-hamiltonian if and only L(G) is (s + 2)-connected” is valid. Broersma and Veldman proved in 1987 that the statement above holds for 0 ≤ s ≤ k and asked, specifically, if the statement holds when s = 2k. In this paper, we prove that the statement above holds for 0 ≤ s ≤ max{2k, 6k − 16}.

AB - For an integer k > 0, a graph G is k-triangular if every edge of G lies in at least k distinct 3-cycles of G. In (J Graph Theory 11:399–407 (1987)), Broersma and Veldman proposed an open problem: for a given positive integer k, determine the value s for which the statement “Let G be a k-triangular graph. Then L(G), the line graph of G, is s-hamiltonian if and only L(G) is (s + 2)-connected” is valid. Broersma and Veldman proved in 1987 that the statement above holds for 0 ≤ s ≤ k and asked, specifically, if the statement holds when s = 2k. In this paper, we prove that the statement above holds for 0 ≤ s ≤ max{2k, 6k − 16}.

KW - Edge Incident

KW - Hamilton Cycle

KW - Hamiltonian Graph

KW - Line graph

KW - Petersen Graph

UR - https://digitalcommons.butler.edu/facsch_papers/103

U2 - 10.1007/s00373-007-0727-y

DO - 10.1007/s00373-007-0727-y

M3 - Article

VL - 23

JO - Scholarship and Professional Work - LAS

JF - Scholarship and Professional Work - LAS

IS - 3

ER -

An s-Hamiltonian Line Graph Problem

Abstract

Keywords

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