距离遗传图的精确枚举

Workshop on Analytic Algorithmics and Combinatorics Pub Date : 2016-08-04 DOI:10.1137/1.9781611974775.3

C. Chauve, Éric Fusy, Jérémie O. Lumbroso

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引用次数: 6

摘要

从理论上讲，距离遗传图是一类重要的图，因为它们是分裂分解的完全可分解图。之前关于这些图的最佳列举结果来自Nakano等人(J. Comp. Sci.)。Tech.， 2007)，他们证明了$n$顶点上的距离遗传图的数量由${2^{\ ceil 3.59n\ ceil}}$限定。在本文中，我们使用枚举组合的经典工具，通过提供距离遗传图的精确枚举来改进这一结果，这允许证明$n$顶点上的距离遗传图的数量紧密地由${(7.24975\ldots)^n}$约束——打开透视图，这样的图可以在$3n$位上编码。我们还给出了一个重要子类——三叶幂图的精确枚举和渐近性。我们的工作说明了通过分析组合学的框架重新审视图分解结果的力量。

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An Exact Enumeration of Distance-Hereditary Graphs

Distance-hereditary graphs form an important class of graphs, from the theoretical point of view, due to the fact that they are the totally decomposable graphs for the split-decomposition. The previous best enumerative result for these graphs is from Nakano et al. (J. Comp. Sci. Tech., 2007), who have proven that the number of distance-hereditary graphs on $n$ vertices is bounded by ${2^{\lceil 3.59n\rceil}}$. In this paper, using classical tools of enumerative combinatorics, we improve on this result by providing an exact enumeration of distance-hereditary graphs, which allows to show that the number of distance-hereditary graphs on $n$ vertices is tightly bounded by ${(7.24975\ldots)^n}$---opening the perspective such graphs could be encoded on $3n$ bits. We also provide the exact enumeration and asymptotics of an important subclass, the 3-leaf power graphs. Our work illustrates the power of revisiting graph decomposition results through the framework of analytic combinatorics.

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Workshop on Analytic Algorithmics and Combinatorics

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