Sequential algorithms for moving anomaly detection in networks

IF 0.6 4区数学 Q4 STATISTICS & PROBABILITY Sequential Analysis-Design Methods and Applications Pub Date : 2020-01-02 DOI:10.1080/07474946.2020.1726678

Georgios Rovatsos, Shaofeng Zou, V. Veeravalli

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引用次数: 16

Abstract

Abstract The problem of quickest moving anomaly detection in networks is studied. Initially, the observations are generated according to a prechange distribution. At some unknown but deterministic time, an anomaly emerges in the network. At each time instant, one node is affected by the anomaly and receives data from a post-change distribution. The anomaly moves across the network, and the node that it affects changes with time. However, the trajectory of the moving anomaly is assumed to be unknown. A discrete-time Markov chain is employed to model the unknown trajectory of the moving anomaly in the network. A windowed generalized likelihood ratio–based test is constructed and is shown to be asymptotically optimal. Other detection algorithms including the dynamic Shiryaev-Roberts test, a quickest change detection algorithm with recursive change point estimation, and a mixture cumulative sum (CUSUM) algorithm are also developed for this problem. Lower bounds on the mean time to false alarm are developed. Numerical results are further provided to compare their performances.

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网络中运动异常检测的顺序算法

摘要研究了网络中移动最快的异常检测问题。最初，观测值是根据变化前的分布生成的。在某个未知但确定的时间，网络中出现异常。在每个时刻，一个节点都会受到异常的影响，并从变化后的分布中接收数据。异常在网络中移动，它影响的节点会随着时间的推移而变化。然而，假设移动异常的轨迹是未知的。采用离散时间马尔可夫链对网络中移动异常的未知轨迹进行建模。构造了一个基于窗口广义似然比的检验，证明了它是渐近最优的。针对这个问题，还开发了其他检测算法，包括动态Shiryaev-Roberts检验、具有递归变化点估计的最快变化检测算法和混合累积和（CUSUM）算法。建立了平均虚警时间的下限。进一步提供了数值结果来比较它们的性能。

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来源期刊

Sequential Analysis-Design Methods and Applications STATISTICS & PROBABILITY-

CiteScore

1.40

自引率

12.50%

发文量

期刊介绍： The purpose of Sequential Analysis is to contribute to theoretical and applied aspects of sequential methodologies in all areas of statistical science. Published papers highlight the development of new and important sequential approaches. Interdisciplinary articles that emphasize the methodology of practical value to applied researchers and statistical consultants are highly encouraged. Papers that cover contemporary areas of applications including animal abundance, bioequivalence, communication science, computer simulations, data mining, directional data, disease mapping, environmental sampling, genome, imaging, microarrays, networking, parallel processing, pest management, sonar detection, spatial statistics, tracking, and engineering are deemed especially important. Of particular value are expository review articles that critically synthesize broad-based statistical issues. Papers on case-studies are also considered. All papers are refereed.