Version 2 2024-06-05, 05:25Version 2 2024-06-05, 05:25
Version 1 2015-08-28, 13:17Version 1 2015-08-28, 13:17
journal contribution
posted on 2024-06-05, 05:25authored byS Yu, G Gu, A Barnawi, S Guo, I Stojmenovic
Malware is pervasive in networks, and poses a critical threat to network security. However, we have very limited understanding of malware behavior in networks to date. In this paper, we investigate how malware propagates in networks from a global perspective. We formulate the problem, and establish a rigorous two layer epidemic model for malware propagation from network to network. Based on the proposed model, our analysis indicates that the distribution of a given malware follows exponential distribution, power law distribution with a short exponential tail, and power law distribution at its early, late and final stages, respectively. Extensive experiments have been performed through two real-world global scale malware data sets, and the results confirm our theoretical findings.
History
Journal
IEEE transactions on knowledge and data engineering