Scalable diffusion-aware optimization of network topology

Proceedings of the 20th ACM SIGKDD international conference on Knowledge discovery and data mining Pub Date : 2014-08-24 DOI:10.1145/2623330.2623704

Elias Boutros Khalil, B. Dilkina, Le Song

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引用次数: 133

Abstract

How can we optimize the topology of a networked system to bring a flu under control, propel a video to popularity, or stifle a network malware in its infancy? Previous work on information diffusion has focused on modeling the diffusion dynamics and selecting nodes to maximize/minimize influence. Only a paucity of recent studies have attempted to address the network modification problems, where the goal is to either facilitate desirable spreads or curtail undesirable ones by adding or deleting a small subset of network nodes or edges. In this paper, we focus on the widely studied linear threshold diffusion model, and prove, for the first time, that the network modification problems under this model have supermodular objective functions. This surprising property allows us to design efficient data structures and scalable algorithms with provable approximation guarantees, despite the hardness of the problems in question. Both the time and space complexities of our algorithms are linear in the size of the network, which allows us to experiment with millions of nodes and edges. We show that our algorithms outperform an array of heuristics in terms of their effectiveness in controlling diffusion processes, often beating the next best by a significant margin.

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网络拓扑的可扩展扩散感知优化

我们如何优化网络系统的拓扑结构来控制流感，推动视频流行，或者扼杀网络恶意软件的萌芽期?以往关于信息扩散的工作主要集中在建模扩散动力学和选择节点以最大化/最小化影响。最近只有少数研究试图解决网络修改问题，其目标是通过添加或删除一小部分网络节点或边来促进理想的传播或减少不希望的传播。本文研究了目前广泛研究的线性阈值扩散模型，并首次证明了该模型下的网络修正问题具有超模目标函数。这个令人惊讶的性质允许我们设计有效的数据结构和可扩展的算法，并具有可证明的近似保证，尽管所讨论的问题很困难。我们的算法的时间和空间复杂性在网络的大小上都是线性的，这使得我们可以用数百万个节点和边缘进行实验。我们表明，我们的算法在控制扩散过程的有效性方面优于一系列启发式算法，通常以显着的幅度击败下一个最佳算法。

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 20th ACM SIGKDD international conference on Knowledge discovery and data mining

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