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Anomaly Detection on Dynamic Bipartite Graph with Burstiness

Zhe Chen, Aixin Sun

202014 citationsDOI

Abstract

Many real-world network data can be modelled as a bipartite graph, such as client-server in the computer network and trader-stock in the stock market. Detecting anomalies on these graphs benefit many applications, e.g., network intrusion detection and illegal trading detection. In real-world networks, these bipartite graphs are not static. Their vertices may change from time to time, and a bipartite graph may demonstrate unexpected burstiness in the form of intermittent increases or decreases in activities between vertices. In this paper, we propose a framework named BEA, a general anomaly detection framework that can effectively detect anomalies on a dynamic bipartite graph with burstiness. We evaluate our proposed framework on three public datasets against the state-of-the-art baselines. We also conduct a case study on the PayPal CSP log network. Through experiments, we show BEA's practicability and effectiveness.

Topics & Concepts

BurstinessBipartite graphComputer scienceAnomaly detectionComplete bipartite graphGraphTheoretical computer scienceData miningComputer networkNetwork packetNetwork Security and Intrusion DetectionComplex Network Analysis TechniquesAnomaly Detection Techniques and Applications
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