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A graph empowered insider threat detection framework based on daily activities

Wei Hong, Jiao Yin, Mingshan You, Hua Wang, Jinli Cao, Jianxin Li, Ming Liu, Chengyuan Man

2023ISA Transactions47 citationsDOIOpen Access PDF

Abstract

While threats from outsiders are easier to alleviate, effective ways seldom exist to handle threats from insiders. The key to managing insider threats lies in engineering behavioral features efficiently and classifying them correctly. To handle challenges in feature engineering, we propose an integrated feature engineering solution based on daily activities, combining manually-selected features and automatically-extracted features together. Particularly, an LSTM auto-encoder is introduced for automatic feature engineering from sequential activities. To improve detection, a residual hybrid network (ResHybnet) containing GNN and CNN components is also proposed along with an organizational graph, taking a user-day combination as a node. Experimental results show that the proposed LSTM auto-encoder could extract hidden patterns from sequential activities efficiently, improving F1 score by 0.56%. Additionally, with the designed residual link, our ResHybnet model works well to boost performance and has outperformed the best of other models by 1.97% on the same features. We published our code on GitHub: https://github.com/Wayne-on-the-road/ResHybnet.

Topics & Concepts

Feature engineeringComputer scienceInsider threatInsiderResidualGraphKey (lock)Artificial intelligenceEncoderFeature (linguistics)Node (physics)Machine learningData miningComputer securityDeep learningTheoretical computer scienceEngineeringAlgorithmStructural engineeringPolitical sciencePhilosophyOperating systemLinguisticsLawAnomaly Detection Techniques and ApplicationsInformation and Cyber SecurityDigital and Cyber Forensics
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