对抗和随机匿名动态网络中更快的监督平均一致性

Pub Date : 2023-04-24 DOI:10.1145/3593426
Aleksandar Kamenev, D. Kowalski, Miguel A. Mosteiro
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引用次数: 0

摘要

我们如何在不暴露身份的情况下,在动态人群中就平均值达成共识?在这项工作中,我们研究了匿名动态网络(ADN)中的平均网络一致性问题。网络动态性是由随时间发生的拓扑图等周数序列指定的,我们称之为网络的等周动态性。共识变量是节点最初持有的值的平均值,这在网络共识文献中是惯例。假设有一个计算平均值的算法可以计算网络大小(即计数问题),反之亦然,我们将重点放在后者上。我们提出了一种用于ADN的确定性分布式平均网络一致性算法,我们称之为等周可扩展协调匿名本地聚合,并分析了它在不同场景下的性能,包括最坏情况(对抗性)和随机动态拓扑。我们的解决方案利用了监督节点,这已被证明是ADN中计算所必需的。该算法使用网络的等周动态性作为输入,这意味着必须只给出等周数参数(或其下界),但拓扑结构可以任意或随机发生,只要它们符合这些参数。以前针对对抗性ADN的工作高估了处理最坏情况的运行时间。对于具有给定等周动态性的ADN,我们的分析表明,对于一些实际的动态拓扑,性能有所提高,对于随机ADN,性能为三次时间或更好,并且我们的实验评估表明,对于某些动态网络模型,我们的理论界不能得到实质性的改进。
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Faster Supervised Average Consensus in Adversarial and Stochastic Anonymous Dynamic Networks
How do we reach consensus on an average value in a dynamic crowd without revealing identity? In this work, we study the problem of average network consensus in Anonymous Dynamic Networks (ADN). Network dynamicity is specified by the sequence of topology-graph isoperimetric numbers occurring over time, which we call the isoperimetric dynamicity of the network. The consensus variable is the average of values initially held by nodes, which is customary in the network-consensus literature. Given that having an algorithm to compute the average one can compute the network size (i.e., the counting problem) and vice versa, we focus on the latter. We present a deterministic distributed average network consensus algorithm for ADNs that we call isoperimetric Scalable Coordinated Anonymous Local Aggregation, and we analyze its performance for different scenarios, including worst-case (adversarial) and stochastic dynamic topologies. Our solution utilizes supervisor nodes, which have been shown to be necessary for computations in ADNs. The algorithm uses the isoperimetric dynamicity of the network as an input, meaning that only the isoperimetric number parameters (or their lower bound) must be given, but topologies may occur arbitrarily or stochastically as long as they comply with those parameters. Previous work for adversarial ADNs overestimates the running time to deal with worst-case scenarios. For ADNs with given isoperimetric dynamicity, our analysis shows improved performance for some practical dynamic topologies, with cubic time or better for stochastic ADNs, and our experimental evaluation indicates that our theoretical bounds could not be substantially improved for some models of dynamic networks.
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