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Power Allocation for Cooperative Jamming Against a Strategic Eavesdropper Over Parallel Channels

Zhifan Xu, Melike Baykal‐Gürsoy

2022IEEE Transactions on Information Forensics and Security11 citationsDOI

Abstract

This paper considers a friendly interferer allocating jamming power to eavesdropping channels to increase the level of secrecy of a wireless network. The friendly interferer has access to limited power, while the eavesdropper may not have the ability to attack all channels simultaneously. When all channels used for secret communication are under the threat of eavesdropping attacks, the optimal power allocation policy results from solving a convex optimization problem. In this case, the optimal policy is unique and can be obtained via a water-filling scheme. When the eavesdropper can not attack all channels, the eavesdropper should behave strategically and may select targets probabilistically. We propose a non-zero-sum game that helps the friendly interferer predict and concentrate on the targets selected by the eavesdropper. Under certain conditions, we prove that there exists a unique Nash equilibrium (NE) strategy pair, which has a threshold type structure. We provide conditions under which the eavesdropper’s equilibrium strategy is deterministic. We devise a strategy iteration algorithm to compute an equilibrium power allocation strategy. We present examples showing that the game-theoretic power allocation strategy performs better than the conservative power allocation strategy that assumes every channel to be under attack.

Topics & Concepts

EavesdroppingJammingComputer scienceNash equilibriumMathematical optimizationChannel (broadcasting)Game theorySecrecyPower (physics)Computer networkComputer securityMathematicsMathematical economicsQuantum mechanicsThermodynamicsPhysicsWireless Communication Security TechniquesCooperative Communication and Network CodingSecurity in Wireless Sensor Networks
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