26 May 2015 Risk assessment by dynamic representation of vulnerability, exploitation, and impact
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Abstract
Assessing and quantifying cyber risk accurately in real-time is essential to providing security and mission assurance in any system and network. This paper presents a modeling and dynamic analysis approach to assessing cyber risk of a network in real-time by representing dynamically its vulnerabilities, exploitations, and impact using integrated Bayesian network and Markov models. Given the set of vulnerabilities detected by a vulnerability scanner in a network, this paper addresses how its risk can be assessed by estimating in real-time the exploit likelihood and impact of vulnerability exploitation on the network, based on real-time observations and measurements over the network. The dynamic representation of the network in terms of its vulnerabilities, sensor measurements, and observations is constructed dynamically using the integrated Bayesian network and Markov models. The transition rates of outgoing and incoming links of states in hidden Markov models are used in determining exploit likelihood and impact of attacks, whereas emission rates help quantify the attack states of vulnerabilities. Simulation results show the quantification and evolving risk scores over time for individual and aggregated vulnerabilities of a network.
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Hasan Cam, Hasan Cam, } "Risk assessment by dynamic representation of vulnerability, exploitation, and impact", Proc. SPIE 9458, Cyber Sensing 2015, 945809 (26 May 2015); doi: 10.1117/12.2177405; https://doi.org/10.1117/12.2177405
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