Ghafir, I, Prenosil, V, Hammoudeh, M, Baker, T, Jabbar, S, Khalid, S and Jaf, S (2018) BotDet: A System for Real Time Botnet Command and Control Traffic Detection. IEEE Access, 6. pp. 38947-38958. ISSN 2169-3536
|
Published Version
Available under License Creative Commons Attribution. Download (4MB) | Preview |
Abstract
OAPA Over the past decade, the digitization of services transformed the healthcare sector leading to a sharp rise in cybersecurity threats. Poor cybersecurity in the healthcare sector, coupled with high value of patient records attracted the attention of hackers. Sophisticated advanced persistent threats and malware have significantly contributed to increasing risks to the health sector. Many recent attacks are attributed to the spread of malicious software, e.g., ransomware or bot malware. Machines infected with bot malware can be used as tools for remote attack or even cryptomining. This paper presents a novel approach, called BotDet, for botnet Command and Control (C&C) traffic detection to defend against malware attacks in critical ultrastructure systems. There are two stages in the development of the proposed sytsem: (i) we have developed four detection modules to detect different possible techniques used in botnet C&C communications; (ii) we have designed a correlation framework to reduce the rate of false alarms raised by individual detection modules. Evaluation results show that BotDet balances the true positive rate and the false positive rate with 82.3% and 13.6% respectively. Furthermore, it proves BotDet capability of real time detection.
Impact and Reach
Statistics
Additional statistics for this dataset are available via IRStats2.