| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 444367 | Ad Hoc Networks | 2015 | 16 Pages |
The openness of the smartphone operating systems has increased the number of applications developed, but it has also introduced a new propagation vector for mobile malware. We model the propagation of mobile malware among humans carrying smartphones using epidemiology theory and study the problem as a function of the underlying mobility models. We define the optimal approach to heal an infected system with the help of a set of static healers that distribute patches as the T-Cover problem, which is NP-COMPLETE. We then propose three families of healer protocols that allow for a trade-off between the recovery time and the energy consumed for deploying patches. We show through simulations using the NS-3 simulator that despite lacking knowledge of the exact future, our healers obtain a recovery time within a 7.4× ∼ 10× bound of the oracle solution that has knowledge of the future arrival time of all the infected nodes.
