Rui Ma scite author profile

In this article, a land mobile satellite communication network with an external jammer to fight against the eavesdropper is investigated, where the hardware impairments are introduced to make the analyses more practical. It is worth noting that three jamming schemes, that is, the Gaussian noise jamming, the friendly jamming, and the scheme without jamming, are taken into account to explore the effect of the jammer comprehensively. The secrecy metrics such as the connectivity outage probability (COP), the security outage probability, and the secrecy throughput (ST), are derived for the passive eavesdropping scenario, while the ergodic secrecy capacity is analyzed for the active eavesdropping scenario. Moreover, to get intuitive insight from the closed-form expressions, the asymptotic ST and the asymptotic COP under the condition of high signal-to-noise ratio are also considered. Finally, all the derivations are validated by Monte Carlo simulations, and the effects of different parameters on the performance of the network are analyzed.

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Improving physical layer security jointly using full‐duplex jamming receiver and multi‐antenna jammer in wireless networks

Yang

et al. 2019

IET Communications

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Full-Duplex Destination-Aided Jamming Scheme for SWIPT-Enabled Relay Networks

Wang

et al. 2020

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Analysis of SWIPT-Enabled Relay Networks with Full-Duplex Destination-Aided Jamming

Shi

Wang

et al. 2021

Security and Communication Networks

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Simultaneous wireless information and power transfer (SWIPT) is a major breakthrough in the field of low-power wireless information transmissions. In this paper, the secrecy performance of the SWIPT-enabled relay network with full-duplex destination-aided jamming is assessed, where both the power-splitting (PS) and time-switching (TS) schemes at the relay are considered with the linear and nonlinear energy harvesting models. The relay harvests energy from the confidential signal and artificial noise sent by the source and destination, respectively, and forwards the amplified signal to the destination, in the presence of an eavesdropper. The analytical closed-form expressions of the connection outage probability (COP), secrecy outage probability (SOP), and transmission outage probability (TOP) for PS- and TS-based schemes are derived, and the closed-form expression of the lower bound of ergodic secrecy capacity (ESC) is calculated. The asymptotic-form expressions of the COP, SOP, TOP, and ESC are further analyzed to capture the valuable information in the high SNR regime. Numerical results verify the correctness of analytical results, reveal the effects of the PS/TS ratio, and transmit the signal-to-noise ratio on secrecy performance.

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Rui Ma

Power Splitting-Based SWIPT Systems With Full-Duplex Jamming

Cooperative jamming in downlink satellite network with hardware impairments

Improving physical layer security jointly using full‐duplex jamming receiver and multi‐antenna jammer in wireless networks

Full-Duplex Destination-Aided Jamming Scheme for SWIPT-Enabled Relay Networks

Analysis of SWIPT-Enabled Relay Networks with Full-Duplex Destination-Aided Jamming

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