Secure Communication with a Wireless-Powered Friendly Jammer
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Liu, Wanchun
Popovski, Petar
Zhou, Xiangyun
Durrani, Salman
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Institute of Electrical and Electronics Engineers (IEEE)
Abstract
In this paper, we propose to use a wireless-powered friendly jammer to enable
secure communication between a source node and destination node, in the
presence of an eavesdropper. We consider a two-phase communication protocol
with fixed-rate transmission. In the first phase, wireless power transfer is
conducted from the source to the jammer. In the second phase, the source
transmits the information-bearing signal under the protection of a jamming
signal sent by the jammer using the harvested energy in the first phase. We
analytically characterize the long-time behavior of the proposed protocol and
derive a closed-form expression for the throughput. We further optimize the
rate parameters for maximizing the throughput subject to a secrecy outage
probability constraint. Our analytical results show that the throughput
performance differs significantly between the single-antenna jammer case and
the multi-antenna jammer case. For instance, as the source transmit power
increases, the throughput quickly reaches an upper bound with single-antenna
jammer, while the throughput grows unbounded with multi-antenna jammer. Our
numerical results also validate the derived analytical results.
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IEEE Transactions on Wireless Communications, vol. 15, no. 1, pp. 401--415, Jan. 2016
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Journal article
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Open Access
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Author/s Accepted Manuscript (AAM)