IEEE Access (Jan 2020)
Alerts Correlation and Causal Analysis for APT Based Cyber Attack Detection
Abstract
The advent of Advanced Persistent Threat (APT) as a new concept in cyber warfare has raised many concerns in recent years. APT based cyber-attacks are usually stealthy, stepwise, slow, long-term, planned, and based on a set of varied zero-day vulnerabilities. As a result, these attacks behave as diverse and dynamic as possible, and hence the generated alerts for these attacks are normally below the common detection thresholds of the conventional attacks. Therefore, the present approaches are not mostly able to effectively detect or analyze the behavior of this class of attacks. In this article, an approach for real-time detection of APT based cyber-attacks based on causal analysis and correlating the generated alerts by security and non-security sensors is introduced. The proposed method computes the infection score of hosts by modeling, discovery, and analysis of causal relationships among APT steps. For this purpose, a dynamic programming algorithm is introduced which works on alerts of each host separately and conducts a long-term analysis on the attack process to combat the outlasting feature of the APT attacks yet coping with a high volume of alert information. The proposed method is implemented and extensively evaluated using a semi real-world dataset and simulation. The experimental results show that the proposed approach can effectively rank hosts based on their infection likelihood with acceptable accuracy.
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