Abstract
Achieving a fully automated and dynamic system in critical infrastructure scenarios is an open issue in ongoing research. Generally, decisions in SCADA systems require a manual intervention, that in most of the cases is performed by highly experienced operators. In this paper we propose a framework consisting of a proactive management software that aims at anticipating the occurrence of potential attacks. It conducts an initial evaluation of reported proactive evidences based on a quantitative metric of monetary return on response investment. The framework evaluates and selects mitigation actions from a pool of candidates, by ranking them in terms of financial and operational impacts. The purpose of this process is to select an optimal set of mitigation actions from financial and operational perspectives and propose them to reduce the risk of threats against the monitored system, without sacrificing an organization’s missions in favor of security. A real world case study of a SCADA environment shows the applicability of the model, from the analysis of the input data to the selection of the response plan.
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Acknowledgements
This work received funding from the Panoptesec project, as part of the 7th Framework Programme (FP7) of the European Commission (GA 610416).
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Gonzalez-Granadillo, G., Alvarez, E., Motzek, A., Merialdo, M., Garcia-Alfaro, J., Debar, H. (2016). Towards an Automated and Dynamic Risk Management Response System. In: Brumley, B., Röning, J. (eds) Secure IT Systems. NordSec 2016. Lecture Notes in Computer Science(), vol 10014. Springer, Cham. https://doi.org/10.1007/978-3-319-47560-8_3
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DOI: https://doi.org/10.1007/978-3-319-47560-8_3
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