具有次线性更新时间的全动态最大独立集

Proceedings of the 50th Annual ACM SIGACT Symposium on Theory of Computing Pub Date : 2018-02-27 DOI:10.1145/3188745.3188922

Sepehr Assadi, Krzysztof Onak, B. Schieber, Shay Solomon

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引用次数: 61

摘要

通过在每次更新后的O(m)时间内重新计算最大独立集(MIS)，可以在不断发展的m边图中维护最大独立集。但是在全动态图中，它能在时间上保持亚线性吗?我们肯定地回答这个基本的开放性问题。我们提出了一个平摊更新时间为O(min{Δ，m3/4})的确定性算法，其中Δ是图中最大度的固定界，m是(动态变化的)边数。我们进一步提出了我们算法的分布式实现，它具有O(min{Δ，m3/4})平摊消息复杂度，以及O(1)平摊轮复杂度和调整复杂度(每次更新后改变其输出的顶点数量)。这加强了cenor - hillel, Haramaty和Karnin (PODC ' 16)的类似结果，该结果需要假设一个非适应性遗忘对手。

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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Fully dynamic maximal independent set with sublinear update time

A maximal independent set (MIS) can be maintained in an evolving m-edge graph by simply recomputing it from scratch in O(m) time after each update. But can it be maintained in time sublinear in m in fully dynamic graphs? We answer this fundamental open question in the affirmative. We present a deterministic algorithm with amortized update time O(min{Δ,m3/4}), where Δ is a fixed bound on the maximum degree in the graph and m is the (dynamically changing) number of edges. We further present a distributed implementation of our algorithm with O(min{Δ,m3/4}) amortized message complexity, and O(1) amortized round complexity and adjustment complexity (the number of vertices that change their output after each update). This strengthens a similar result by Censor-Hillel, Haramaty, and Karnin (PODC’16) that required an assumption of a non-adaptive oblivious adversary.

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Proceedings of the 50th Annual ACM SIGACT Symposium on Theory of Computing

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