Intrusion Detection Systems (IDS) warn of suspicious or malicious network activity and are a fundamental, yet passive, defense-in-depth layer for modern networks. Prior research has applied information fusion techniques to correlate the alerts of multiple IDSs and group those belonging to the same multi-stage attack into attack tracks. Projecting the next likely step in these tracks potentially enhances an analyst’s situational awareness; however, the reliance on attack plans, complicated algorithms, or expert knowledge of the respective network is prohibitive and prone to obsolescence with the continual deployment of new technology and evolution of hacker tradecraft. This thesis presents a real-time continually learning system capable of projecting attack tracks that does not require a priori knowledge about network architecture or rely on static attack templates. Prediction correctness over time and other metrics are used to assess the system’s performance. The system demonstrates the successful real-time adaptation of the model, including enhancements such as the prediction that a never before observed event is about to occur. The intrusion projection system is framed as part of a larger information fusion and impact assessment architecture for cyber security.
Library of Congress Subject Headings
Computer networks--Security measures; Computer networks--Monitoring; Machine learning
Department, Program, or Center
Computer Engineering (KGCOE)
Byers, Stephen Reed, "Real-time fusion and projection of network intrusion activity" (2008). Thesis. Rochester Institute of Technology. Accessed from
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