论文信息 - On one extension of Dirac's theorem on Hamiltonicity

On one extension of Dirac's theorem on Hamiltonicity

Abstract The classical Dirac theorem asserts that every graph G on n ≥ 3 vertices with minimum degree δ ( G ) ≥ ⌈ n ∕ 2 ⌉ is Hamiltonian. The lower bound of ⌈ n ∕ 2 ⌉ on the minimum degree of a graph is tight. In this paper, we extend the classical Dirac theorem to the case where δ ( G ) ≥ ⌊ n ∕ 2 ⌋ by identifying the only non-Hamiltonian graph families in this case. We first present a short and simple proof. We then provide an alternative proof that is constructive and self-contained. Consequently, we provide a polynomial-time algorithm that constructs a Hamiltonian cycle, if exists, of a graph G with δ ( G ) ≥ ⌊ n ∕ 2 ⌋ , or determines that the graph is non-Hamiltonian. Finally, we present a self-contained proof for our algorithm which provides insight into the structure of Hamiltonian cycles when δ ( G ) ≥ ⌊ n ∕ 2 ⌋ and is promising for extending the results of this paper to the cases with smaller degree bounds.

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