关联Erdős-Rényi图的低度检测硬度

arXiv - MATH - Statistics Theory Pub Date : 2023-11-27 DOI:arxiv-2311.15931

Jian Ding, Hang Du, Zhangsong Li

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引用次数: 0

摘要

给定两个Erd \H{o} s- r图，其$n$顶点的边通过潜在顶点对应关系相关联，我们研究了一类低次多项式算法的关联相关检测问题的复杂度下限。我们提供的证据表明，任何程度- $O(\rho^{-1})$多项式算法失败的检测，其中$\rho$是边缘相关。此外，在边缘密度$q=n^{-1+o(1)}$的稀疏状态下，我们提供证据表明，只要$\log d=o\big( \frac{\log n}{\log nq} \wedge\sqrt{\log n} \big)$和相关性$\rho<\sqrt{\alpha}$ ($\alpha\approx 0.338$是Otter的常数)，任何程度- $d$多项式算法都无法进行检测。我们的结果表明，几种最先进的相关检测和精确匹配恢复算法可能是最好的。

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Low-Degree Hardness of Detection for Correlated Erdős-Rényi Graphs

Given two Erd\H{o}s-R\'enyi graphs with $n$ vertices whose edges are correlated through a latent vertex correspondence, we study complexity lower bounds for the associated correlation detection problem for the class of low-degree polynomial algorithms. We provide evidence that any degree-$O(\rho^{-1})$ polynomial algorithm fails for detection, where $\rho$ is the edge correlation. Furthermore, in the sparse regime where the edge density $q=n^{-1+o(1)}$, we provide evidence that any degree-$d$ polynomial algorithm fails for detection, as long as $\log d=o\big( \frac{\log n}{\log nq} \wedge \sqrt{\log n} \big)$ and the correlation $\rho<\sqrt{\alpha}$ where $\alpha\approx 0.338$ is the Otter's constant. Our result suggests that several state-of-the-art algorithms on correlation detection and exact matching recovery may be essentially the best possible.

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arXiv - MATH - Statistics Theory

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