Relationships between the length of a longest path and the relative length

Shuya Chiba; Ryota Matsubara; Masao Tsugaki

Relationships between the length of a longest path and the relative length

Shuya Chiba, Ryota Matsubara, Masao Tsugaki

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

Abstract

Let G be a graph, and let p(G) and c(G) be the order of a longest path and a longest cycle of G, respectively. In [J. Graph Theory 30 (1999), 91-99], Saito proved that if G is a 2-connected graph with p(G) - c(G) ≥ 2, then p(G) ≥ σ ₃(G) - 1. In this paper, we evaluate the length of a longest path of G by using σ ₄(G). Specifically, our main results are the following. (i) If G is a 3-connected graph with p(G) - c(G) ≥ 3, then p(G) ≥ σ ₄(G)-5, and (ii) if G is a 3-connected graph withp(G)-c(G) ≥ 2, then p(G) ≥ 3σ ₄(G)/4-1. The statement (ii) is a generalization of Saito's theorem for 3-connected graphs. In fact, we characterize all graphs G with p(G) - c(G) ≥ 2 and p(G) = 3σ ₄(G)/4-1. Following these results, we propose a conjecture, and obtain an application for the problem concerning the existence of vertex-disjoint paths.

Original language	English
Pages (from-to)	91-107
Number of pages	17
Journal	Australasian Journal of Combinatorics
Volume	47
Publication status	Published - 2010 Jun 10
Externally published	Yes

ASJC Scopus subject areas

Discrete Mathematics and Combinatorics

Cite this

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title = "Relationships between the length of a longest path and the relative length",

abstract = "Let G be a graph, and let p(G) and c(G) be the order of a longest path and a longest cycle of G, respectively. In [J. Graph Theory 30 (1999), 91-99], Saito proved that if G is a 2-connected graph with p(G) - c(G) ≥ 2, then p(G) ≥ σ 3(G) - 1. In this paper, we evaluate the length of a longest path of G by using σ 4(G). Specifically, our main results are the following. (i) If G is a 3-connected graph with p(G) - c(G) ≥ 3, then p(G) ≥ σ 4(G)-5, and (ii) if G is a 3-connected graph withp(G)-c(G) ≥ 2, then p(G) ≥ 3σ 4(G)/4-1. The statement (ii) is a generalization of Saito's theorem for 3-connected graphs. In fact, we characterize all graphs G with p(G) - c(G) ≥ 2 and p(G) = 3σ 4(G)/4-1. Following these results, we propose a conjecture, and obtain an application for the problem concerning the existence of vertex-disjoint paths.",

author = "Shuya Chiba and Ryota Matsubara and Masao Tsugaki",

year = "2010",

month = jun,

day = "10",

language = "English",

volume = "47",

pages = "91--107",

journal = "Australasian Journal of Combinatorics",

issn = "1034-4942",

publisher = "University of Queensland Press",

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T1 - Relationships between the length of a longest path and the relative length

AU - Chiba, Shuya

AU - Matsubara, Ryota

AU - Tsugaki, Masao

PY - 2010/6/10

Y1 - 2010/6/10

N2 - Let G be a graph, and let p(G) and c(G) be the order of a longest path and a longest cycle of G, respectively. In [J. Graph Theory 30 (1999), 91-99], Saito proved that if G is a 2-connected graph with p(G) - c(G) ≥ 2, then p(G) ≥ σ 3(G) - 1. In this paper, we evaluate the length of a longest path of G by using σ 4(G). Specifically, our main results are the following. (i) If G is a 3-connected graph with p(G) - c(G) ≥ 3, then p(G) ≥ σ 4(G)-5, and (ii) if G is a 3-connected graph withp(G)-c(G) ≥ 2, then p(G) ≥ 3σ 4(G)/4-1. The statement (ii) is a generalization of Saito's theorem for 3-connected graphs. In fact, we characterize all graphs G with p(G) - c(G) ≥ 2 and p(G) = 3σ 4(G)/4-1. Following these results, we propose a conjecture, and obtain an application for the problem concerning the existence of vertex-disjoint paths.

AB - Let G be a graph, and let p(G) and c(G) be the order of a longest path and a longest cycle of G, respectively. In [J. Graph Theory 30 (1999), 91-99], Saito proved that if G is a 2-connected graph with p(G) - c(G) ≥ 2, then p(G) ≥ σ 3(G) - 1. In this paper, we evaluate the length of a longest path of G by using σ 4(G). Specifically, our main results are the following. (i) If G is a 3-connected graph with p(G) - c(G) ≥ 3, then p(G) ≥ σ 4(G)-5, and (ii) if G is a 3-connected graph withp(G)-c(G) ≥ 2, then p(G) ≥ 3σ 4(G)/4-1. The statement (ii) is a generalization of Saito's theorem for 3-connected graphs. In fact, we characterize all graphs G with p(G) - c(G) ≥ 2 and p(G) = 3σ 4(G)/4-1. Following these results, we propose a conjecture, and obtain an application for the problem concerning the existence of vertex-disjoint paths.

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Relationships between the length of a longest path and the relative length

Abstract

ASJC Scopus subject areas

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