Impact of Wireless Energy Transfer Strategies on the Secrecy Performance of Untrustworthy Relay Networks

Abstract:

A dual-hop relaying network with an untrustworthy energy-constrained amplify-and-forward relay is examined for secrecy outage performance. Destination-based jamming prevents the relay from decoding confidential source messages.

Three relay-powering time switching-based wireless energy transfer strategies are also examined. These three strategies yield simple closed-form asymptotic expressions for secrecy outage probability at high signal-to-noise ratio.

We also calculate the optimal information transmission phase power allocation factor analytically. Finally, Monte Carlo simulations verify theoretical results in various examples.

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Impact of Wireless Energy Transfer Strategies on the Secrecy Performance of Untrustworthy Relay Networks

Abstract:

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