Maosa, Herbert, Ouazzane, Karim and Ghanem, Mohamed Chahine (2024) A hierarchical security event correlation model for real-time threat detection and response. Network, 4 (1). pp. 68-90. ISSN 2673-8732
An Intrusion detection system (IDS) performs post-compromise detection of security breaches whenever preventive measures such as firewalls do not avert an attack. However, these systems raise a vast number of alerts that must be analyzed and triaged by security analysts. This process is largely manual, tedious and time-consuming. Alert correlation is a technique that reduces the number of intrusion alerts by aggregating alerts that are similar in some way. However, the correlation is performed outside the IDS through third-party systems and tools, the IDS has already generated a high volume of alerts. These third-party systems add to the complexity of security operations. In this paper, we build on the highly researched area of alert and event correlation by developing a novel hierarchical event correlation model that promises to reduce the number of alerts issued by an Intrusion Detection System. This is achieved by correlating the events before the IDS classifies them. The proposed model takes the best of features from similarity and graph-based correlation techniques to deliver an ensemble capability not possible by either approach separately. Further, we propose a correlation process for events rather than alerts as is the case in current art. We further develop our own correlation and clustering algorithm which is tailor-made to the correlation and clustering of network event data. The model is implemented as a proof of concept with experiments run on standard Intrusion detection sets. The correlation achieved 87% data reduction through aggregation, producing nearly 21,000 clusters in about 30 seconds.
Available under License Creative Commons Attribution 4.0.
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