改进了可比性图的ramsey类型结果

Combinatorics, Probability and Computing Pub Date : 2018-10-01 DOI:10.1017/S0963548320000103

D'aniel Kor'andi, István Tomon

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引用次数: 2

摘要

几个离散几何问题等价于估计图中最大齐次集的大小，而这些图恰好是几个可比性图的并集。对于这些结果的一个重要观察是，如果G是一个n顶点图，是r个可比性图(或更一般地，完美图)的并，那么G或它的补包含一个大小为$n^{1/(r+1)}$的团。当r=1时，这个界限是很紧的。Dumitrescu和Tóth研究了$r\ge 2$是否为最优的问题。我们也证明了$r=2$是本质上最优可能的:我们引入了n个顶点上的两个可比性图的概率构造，它们的并集不包含大小为$n^{1/3+o(1)}$的团或独立集。使用类似的思想，我们也可以构造一个图G，它是r个可比性图的并，并且G及其补都不包含一个部分大小为$cn/{(log n)^r}$的完全二部图。利用这一点，我们改进了Fox和Pach的结果。

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Improved Ramsey-type results for comparability graphs

Abstract Several discrete geometry problems are equivalent to estimating the size of the largest homogeneous sets in graphs that happen to be the union of few comparability graphs. An important observation for such results is that if G is an n-vertex graph that is the union of r comparability (or more generally, perfect) graphs, then either G or its complement contains a clique of size $n^{1/(r+1)}$ . This bound is known to be tight for $r=1$ . The question whether it is optimal for $r\ge 2$ was studied by Dumitrescu and Tóth. We prove that it is essentially best possible for $r=2$ , as well: we introduce a probabilistic construction of two comparability graphs on n vertices, whose union contains no clique or independent set of size $n^{1/3+o(1)}$ . Using similar ideas, we can also construct a graph G that is the union of r comparability graphs, and neither G nor its complement contain a complete bipartite graph with parts of size $cn/{(log n)^r}$ . With this, we improve a result of Fox and Pach.

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