Runtime hardware Trojan detection by reconfigurable monitoring circuits

Fani, Reza; Zamani, Morteza Saheb

doi:10.1007/s11227-022-04362-1

Cited by 3 publications

(1 citation statement)

References 34 publications

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“…Throughout literature, there are more researches have been done in this area. In addition to ransomware [3], Trojans [4], Keyloggers [5], Backdoors [6], Launchers [7], there are other categories of malware. Both signature-based and behavior-based techniques are used for malware detection.…”

Section: A Malware Analysismentioning

confidence: 99%

Deep Image: A precious image based deep learning method for online malware detection in IoT Environment

Ghahramani¹,

Taheri²,

Shojafar³

et al. 2022

Preprint

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The volume of malware and the number of attacks in IoT devices are rising everyday, which encourages security professionals to continually enhance their malware analysis tools. Researchers in the field of cyber security have extensively explored the usage of sophisticated analytics and the efficiency of malware detection. With the introduction of new malware kinds and attack routes, security experts confront considerable challenges in developing efficient malware detection and analysis solutions. In this paper, a different view of malware analysis is considered and the risk level of each sample feature is computed, and based on that the risk level of that sample is calculated. In this way, a criterion is introduced that is used together with accuracy and FPR criteria for malware analysis in IoT environment. In this paper, three malware detection methods based on visualization techniques called the clustering approach, the probabilistic approach, and the deep learning approach are proposed. Then, in addition to the usual machine learning criteria namely accuracy and FPR, a proposed criterion based on the risk of samples has also been used for comparison, with the results showing that the deep learning approach performed better in detecting malware.

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