Noise sensitivity of the minimum spanning tree of the complete graph

Combinatorics, Probability and Computing Pub Date : 2024-05-23 DOI:10.1017/s0963548324000129

Omer Israeli, Yuval Peled

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Abstract

We study the noise sensitivity of the minimum spanning tree (MST) of the

$n$

-vertex complete graph when edges are assigned independent random weights. It is known that when the graph distance is rescaled by

$n^{1/3}$

and vertices are given a uniform measure, the MST converges in distribution in the Gromov–Hausdorff–Prokhorov (GHP) topology. We prove that if the weight of each edge is resampled independently with probability

$\varepsilon \gg n^{-1/3}$

, then the pair of rescaled minimum spanning trees – before and after the noise – converges in distribution to independent random spaces. Conversely, if

$\varepsilon \ll n^{-1/3}$

, the GHP distance between the rescaled trees goes to

$0$

in probability. This implies the noise sensitivity and stability for every property of the MST that corresponds to a continuity set of the random limit. The noise threshold of

$n^{-1/3}$

coincides with the critical window of the Erdős-Rényi random graphs. In fact, these results follow from an analog theorem we prove regarding the minimum spanning forest of critical random graphs.

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完整图最小生成树的噪声敏感度

我们研究了当给边分配独立随机权重时，$n$顶点完整图的最小生成树（MST）的噪声敏感性。众所周知，当图距离被 $n^{1/3}$ 重标量且顶点被赋予统一度量时，最小生成树会在格罗莫夫-豪斯多夫-普罗霍罗夫（GHP）拓扑中收敛分布。我们证明，如果以 $\varepsilon \gg n^{-1/3}$ 的概率对每条边的权重进行独立重采样，那么一对重标的最小生成树--在噪声之前和之后--在分布上收敛于独立的随机空间。反之，如果 $\varepsilon \ll n^{-1/3}$，则重标的树之间的 GHP 距离在概率上变为 $0$。这意味着与随机极限的连续集相对应的 MST 的每个属性都具有噪声敏感性和稳定性。噪声阈值 $n^{-1/3}$ 与厄尔多斯-雷尼随机图的临界窗口相吻合。事实上，这些结果来自于我们证明的临界随机图最小跨度林的类似定理。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Combinatorics, Probability and Computing

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