Destination Assisted Secret Transmission in Wireless Relay Networks

2016 IEEE 84th Vehicular Technology Conference (VTC-Fall) Pub Date : 2016-09-01 DOI:10.1109/VTCFall.2016.7880959

Shaobo Jia, Jiayan Zhang, Honglin Zhao, Ruoyu Zhang

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引用次数: 2

Abstract

To improve physical (PHY) layer security of a wireless relay system in the presence of an eavesdropper, a two-phase cooperative relaying scheme is investigated in this paper. In phase I, the source transmits confidential message, simultaneously, it cooperates with the friendly jammers and destination to create jamming signal at the eavesdropper without affecting the forwarding relay which is preselected. In phase II, the forwarding relay retransmits the decoded signal, meanwhile, the particular relay cooperates with the friendly jammers to create jamming signal at the eavesdropper without affecting the destination. We focus on the investigation of optimal power allocation for maximizing achievable secrecy rate subject to a total power constraint. Optimal relay selection and suboptimal relay selection schemes are also proposed. It is shown that as the number of relays increases, both secrecy rate and the performance of suboptimal relay selection scheme improve significantly. Numerical results are presented to validate the derived analytical results and compare them to existing work

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无线中继网络中的目的地辅助秘密传输

为了提高存在窃听者时无线中继系统物理层的安全性，研究了一种两相协作中继方案。在第一阶段，源端发送机密报文，同时与友方干扰机和目的端合作，在不影响预选转发中继的情况下，在窃听端产生干扰信号。在阶段II中，转发中继将解码后的信号进行重传，同时，特定中继与友方干扰机合作，在不影响目标的情况下在窃听器处产生干扰信号。我们重点研究了在总功率约束下，为使可实现的保密率最大化而进行的最优功率分配。提出了最优中继选择和次最优中继选择方案。结果表明，随着中继数量的增加，次优中继选择方案的保密率和性能都有显著提高。数值结果验证了推导出的分析结果，并与已有工作进行了比较

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来源期刊

2016 IEEE 84th Vehicular Technology Conference (VTC-Fall)

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