Abstract
Deploying security solutions to defend against known security attacks could fail not only due to policy, design, or implementation flaws in the designed solutions, but also due to lack of data regarding the environment under which the attack is executed, or the security solution supervising the malicious behavior. To this end, we develop in this paper a new cyber defense system that assesses the efficiency of a cyber security solution when faced to attack scenarios occurring under different contexts (the configuration and location of distributed security solutions, called observer agents, the used reaction system, and the information visibility of attacks). The work also considers the development of a model for describing the concept of global, local and observable executable scenarios, which allows to observe step by step the execution of an attack scenario, and the observer agents’ behavior and their reactions to the attack execution. The model allows also to identify the step at which an attack scenario can be blocked. A case study is presented to exemplify the proposal.
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Notes
- 1.
CERTbe, Petya/NotPetya Malware Report on worldwide infection, June 2017.
- 2.
Symantec Internet Security Threat Report ISTR, Ransomware 2017, July 2017.
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Lakhdhar, Y., Rekhis, S., Boudriga, N. (2018). A Context-Based Model for Validating the Ability of Cyber Systems to Defend Against Attacks. In: Boudriga, N., Alouini, MS., Rekhis, S., Sabir, E., Pollin, S. (eds) Ubiquitous Networking. UNet 2018. Lecture Notes in Computer Science(), vol 11277. Springer, Cham. https://doi.org/10.1007/978-3-030-02849-7_27
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DOI: https://doi.org/10.1007/978-3-030-02849-7_27
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