Online and dynamic algorithms for set cover

Proceedings of the 49th Annual ACM SIGACT Symposium on Theory of Computing Pub Date : 2016-11-17 DOI:10.1145/3055399.3055493

Anupam Gupta, Ravishankar Krishnaswamy, Amit Kumar, Debmalya Panigrahi

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引用次数: 72

Abstract

In this paper, we give new results for the set cover problem in the fully dynamic model. In this model, the set of "active" elements to be covered changes over time. The goal is to maintain a near-optimal solution for the currently active elements, while making few changes in each timestep. This model is popular in both dynamic and online algorithms: in the former, the goal is to minimize the update time of the solution, while in the latter, the recourse (number of changes) is bounded. We present generic techniques for the dynamic set cover problem inspired by the classic greedy and primal-dual offline algorithms for set cover. The former leads to a competitive ratio of O(lognt), where nt is the number of currently active elements at timestep t, while the latter yields competitive ratios dependent on ft, the maximum number of sets that a currently active element belongs to. We demonstrate that these techniques are useful for obtaining tight results in both settings: update time bounds and limited recourse, exhibiting algorithmic techniques common to these two parallel threads of research.

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集覆盖的在线和动态算法

本文给出了全动态模型下集覆盖问题的新结果。在这个模型中，要覆盖的“活动”元素的集合随着时间的推移而变化。我们的目标是为当前活动的元素维护一个近乎最优的解决方案，同时在每个时间步中进行很少的更改。该模型在动态算法和在线算法中都很流行:在动态算法中，目标是最小化解决方案的更新时间，而在在线算法中，追索权(更改次数)是有限的。在经典的贪婪和原始对偶离线集覆盖算法的启发下，我们提出了动态集覆盖问题的一般技术。前者导致竞争比为O(logt)，其中nt是时间步长为t时当前活动元素的数量，而后者产生的竞争比取决于ft，即当前活动元素所属的最大集合数。我们证明了这些技术对于在两种情况下获得严格的结果是有用的:更新时间界限和有限的资源，展示了这两个并行研究线程共同的算法技术。

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 49th Annual ACM SIGACT Symposium on Theory of Computing

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