Simpler and Stronger Approaches for Non-Uniform Hypergraph Matching and the Füredi, Kahn, and Seymour Conjecture

Proceedings of the SIAM Symposium on Simplicity in Algorithms (SOSA) Pub Date : 2020-09-01 DOI:10.1137/1.9781611976496.22

Georg Anegg, Haris Angelidakis, R. Zenklusen

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引用次数: 4

Abstract

A well-known conjecture of Furedi, Kahn, and Seymour (1993) on non-uniform hypergraph matching states that for any hypergraph with edge weights $w$, there exists a matching $M$ such that the inequality $\sum_{e\in M} g(e) w(e) \geq \mathrm{OPT}_{\mathrm{LP}}$ holds with $g(e)=|e|-1+\frac{1}{|e|}$, where $\mathrm{OPT}_{\mathrm{LP}}$ denotes the optimal value of the canonical LP relaxation. While the conjecture remains open, the strongest result towards it was very recently obtained by Brubach, Sankararaman, Srinivasan, and Xu (2020)---building on and strengthening prior work by Bansal, Gupta, Li, Mestre, Nagarajan, and Rudra (2012)---showing that the aforementioned inequality holds with $g(e)=|e|+O(|e|\exp(-|e|))$. Actually, their method works in a more general sampling setting, where, given a point $x$ of the canonical LP relaxation, the task is to efficiently sample a matching $M$ containing each edge $e$ with probability at least $\frac{x(e)}{g(e)}$. We present simpler and easy-to-analyze procedures leading to improved results. More precisely, for any solution $x$ to the canonical LP, we introduce a simple algorithm based on exponential clocks for Brubach et al.'s sampling setting achieving $g(e)=|e|-(|e|-1)x(e)$. Apart from the slight improvement in $g$, our technique may open up new ways to attack the original conjecture. Moreover, we provide a short and arguably elegant analysis showing that a natural greedy approach for the original setting of the conjecture shows the inequality for the same $g(e)=|e|-(|e|-1)x(e)$ even for the more general hypergraph $b$-matching problem.

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非一致超图匹配的更简单和更强大的方法和fredi, Kahn和Seymour猜想

Furedi, Kahn, and Seymour(1993)关于非均匀超图匹配的一个著名猜想指出，对于任何边权为$w$的超图，存在一个匹配$M$，使得不等式$\sum_{e\in M} g(e) w(e) \geq \mathrm{OPT}_{\mathrm{LP}}$与$g(e)=|e|-1+\frac{1}{|e|}$成立，其中$\mathrm{OPT}_{\mathrm{LP}}$表示正则LP松弛的最优值。虽然这一猜想仍然是开放的，但Brubach、Sankararaman、Srinivasan和Xu(2020)最近获得了最有力的结果——基于并加强了Bansal、Gupta、Li、Mestre、Nagarajan和Rudra(2012)的先前工作——表明上述不平等适用于$g(e)=|e|+O(|e|\exp(-|e|))$。实际上，他们的方法适用于更一般的采样设置，其中，给定一个正则LP松弛的点$x$，任务是以至少$\frac{x(e)}{g(e)}$的概率有效地采样包含每个边$e$的匹配$M$。我们提供更简单和易于分析的程序，从而改善结果。更准确地说，对于规范LP的任何解$x$，我们引入了一个基于指数时钟的简单算法，用于Brubach等人的采样设置，实现$g(e)=|e|-(|e|-1)x(e)$。除了对$g$的轻微改进之外，我们的技术可能会开辟新的方法来攻击原始猜想。此外，我们提供了一个简短而优雅的分析，表明对猜想的原始设置的自然贪婪方法显示了相同$g(e)=|e|-(|e|-1)x(e)$的不等式，甚至对于更一般的超图$b$匹配问题。

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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Proceedings of the SIAM Symposium on Simplicity in Algorithms (SOSA)

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