Abstract

AbstractAnalysis of network data has emerged as an active research area in statistics. Much of the focus of ongoing research has been on static networks that represent a single snapshot or aggregated historical data unchanging over time. However, most networks result from temporally evolving systems that exhibit intrinsic dynamic behavior. Monitoring such temporally varying networks to detect anomalous changes has applications in both social and physical sciences. In this work, we perform an evaluation study of the use of summary statistics for anomaly detection in temporally evolving networks by incorporating principles from statistical process monitoring. In contrast to previous studies, we deliberately incorporate temporal autocorrelation in our study. Other considerations in our comprehensive assessment include types and duration of anomaly, model type, and sparsity in temporally evolving networks. We conclude that the use of summary statistics can be valuable tools for network monitoring and often perform better than more complicated statistics.

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