Learning Process Behavioral Baselines for Anomaly Detection

Fawaz, A.M., Sanders, W.H.

Citation

2017 IEEE 22nd Pacific Rim International Symposium on Dependable Computing (PRDC), Christchurch, New Zealand, 2017, pp. 145-154.

Abstract

AbIntrusion resilience is a protection strategy aimed at building systems that can continue to provide service during attacks. One approach to intrusion resilience is to continuously monitor a system’s state and change its configuration to maintain service even while attacks are occurring. Intrusion detection, through both anomaly detection (for unknown attacks) and signature detection (for known attacks) is thus a crucial part of that resilience strategy. In this paper, we introduce KOBRA, an online anomaly detection engine that learns behavioral baselines for applications. KOBRA is implemented as a set of cooperative kernel modules that collects time-stamped process events. The process events are converted to a discrete-time signal in the polar space. We learn local patterns that occur in the data and then learn the normal co-occurrence relationships between the patterns. The patterns and the co-occurrence relations model the normal behavioral baseline of an application. We compute an anomaly score for tested traces and compare it against a threshold for anomaly detection. We evaluate the baseline by experimenting with its ability to discriminate between different processes and detect malicious behavior.

Related Research Themes

Data Analytics for Cyber Event Detection, Management, and Recovery

Related Research Activities

Proactive Response Strategy for Energy Delivery Systems

Related Technologies

Related Impact Areas

Long-Term Research

CREDC Authors

Publication Status
- Published
Publication Type
- Proceedings
Publication Date
- 1/22/2017
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