Cyber Camouflage Games For Strategic Deception

The rapid increase in cybercrime, causing a reported annual economic loss of $600 billion (Lewis 2018), has prompted a critical need for effective cyber defense. Strategic criminals conduct network reconnaissance prior to executing attacks to avoid detection and establish situational awareness via scanning and fingerprinting tools. Cyber deception attempts to foil these reconnaissance efforts by camouflaging network and system attributes to disguise valuable information. Game-theoretic models can identify decisions about strategically deceiving attackers, subject to domain constraints. For effectively deploying an optimal deceptive strategy, modeling the objectives and the abilities of the attackers, is a key challenge. To address this challenge, we present Cyber Camouflage Games (CCG), a general-sum game model that captures attackers which can be diversely equipped and motivated. We show that computing the optimal defender strategy is NP-hard even in the special case of unconstrained CCGs, and present an efficient approximate solution for it. We further provide an MILP formulation accelerated with cut-augmentation for the general constrained problem. Finally, we provide experimental evidence that our solution methods are efficient and effective.