使用全双工接收器进行可靠的资源分配

M. Abedi, N. Mokari, H. Saeedi, H. Yanikomeroglu
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引用次数: 7

摘要

本文研究了一种鲁棒的资源分配框架,以增强物理层安全性,该框架假设系统配备了全双工(FD)接收器,而传统框架则配备了半双工(HD)接收器。通常使用中继作为干扰器来降低窃听者接收到的信号质量,从而提高合法发送端和接收端之间的保密传输速率。这被称为协同干扰(CJ)。在配备FD接收机的系统中,我们建议使用FD接收机作为干扰机,即FD接收机在接收发射机数据的同时向窃听者发送干扰信号。该方案不需要外部辅助器,即干扰继电器,从实用的角度来看是受欢迎的。我们考虑了不同的场景,将所提出的方案与CJ方案进行比较,CJ方案在合法的发射机功率约束下,为每个场景获得最佳功率分配以最大化保密率。考虑到窃听者与网络上其他节点之间信道状态信息不完全的影响,考虑了最坏情况优化方法。仿真结果表明,对于干扰中继和窃听器的特定位置,该系统优于传统的CJ方案。
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Secure robust resource allocation using full-duplex receivers
This paper studies a robust resource allocation framework to enhance physical layer security where it is assumed that the system is equipped with a full-duplex (FD) receiver in contrast to conventional frameworks where a half-duplex (HD) receiver is at hand. Conventionally, relays are used as jammer to reduce the signal quality received by the eavesdroppers so as to increase the secrecy transmission rate between the legitimate transmitter and receiver. This is referred to as cooperative jamming (CJ). In a system equipped with a FD receiver, we propose to use the FD receiver as the jammer, i.e., the FD receiver simultaneously transmits jamming signals toward the eavesdropper while receiving data from the transmitter. The proposed scheme eliminates the need for external helpers, i.e., jamming relays which is welcome from practical point of view. We consider different scenarios to compare the proposed scheme against the CJ scheme in which, under a legitimate transmitter power constraint, optimal power allocation is obtained for each scenario to maximize the secrecy rate. To take into account the impact of imperfect state information of the channels between the eavesdropper and other nodes on the network, worst-case optimization approaches are considered. Simulation results demonstrate that for certain positions of the jamming relay and eavesdropper, the proposed system can outperform the conventional CJ schemes.
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