Exploring ICMetrics to detect abnormal program behaviour on embedded devices
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AbstractExecution of unknown or malicious software on an embedded system may trigger harmful system behaviour targeted at stealing sensitive data and/or causing damage to the system. It is thus considered a potential and significant threat to the security of embedded systems. Generally, the resource constrained nature of commercial off-the-shelf (COTS) embedded devices, such as embedded medical equipment, does not allow computationally expensive protection solutions to be deployed on these devices, rendering them vulnerable. A Self-Organising Map (SOM) based and Fuzzy C-means based approaches are proposed in this paper for detecting abnormal program behaviour to boost embedded system security. The presented technique extracts features derived from processor’s Program Counter (PC) and Cycles per Instruction (CPI), and then utilises the features to identify abnormal behaviour using the SOM. Results achieved in our experiment show that the proposed SOM based and Fuzzy C-means based methods can identify unknown program behaviours not included in the training set with 90.9% and 98.7% accuracy.
CitationZhai, X, Appiah, K, Ehsan, S, Howells, G, Hu, H, Gu, D, & McDonald-Maier, K 2015, 'Exploring ICMetrics to detect abnormal program behaviour on embedded devices', Journal Of Systems Architecture, 61, Special section on Architecture of Computing Systems edited by Editors: Wolfgang Karl, Erik Maehle, Kay Romer, Eduardo Tovar, Martin Danek, pp. 567-575
JournalJournal of Systems Architecture
Series/Report no.Vol. 61