Joint transmitter- and receiver-based friendly jamming in a MIMO wiretap interference network

2017 IEEE International Conference on Communications Workshops (ICC Workshops) Pub Date : 2017-06-29 DOI:10.1109/ICCW.2017.7962842

Peyman Siyari, M. Krunz, Diep N. Nguyen

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引用次数: 4

Abstract

We consider an interference network tapped by external eavesdropper(s) in which each legitimate transmit-receive pair conceals its communications by using joint transmit-based friendly jamming (TxFJ) and receiver-based friendly jamming (RxFJ). Specifically, TxFJ is realized at the transmit side using MIMO precoding while RxFJ is achieved at the receiver side of each link by leveraging the state-of-the-art self-interference-suppression techniques (allowing a radio to cancel the self-interference effect of its transmit signal). We show that with a careful power allocation between the information signal and TxFJ at the transmit side of each link, the corresponding receiver is able decide on using RxFJ independent of any multi-user interference factor. This ability sets the receivers free from having to measure multi-user interference at eavesdropper(s). With every link following such strategy, we model this interaction as a non-cooperative game. We derive sufficient conditions under which the game admits a unique Nash equilibrium. We then propose a robust version of the game that requires only statistical knowledge of eavesdropping channel.

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MIMO窃听干扰网络中基于联合发射机和接收机的友好干扰

我们考虑一个被外部窃听者窃听的干扰网络，其中每个合法的发送-接收对通过联合基于发送的友好干扰(TxFJ)和基于接收器的友好干扰(RxFJ)来隐藏其通信。具体来说，TxFJ是在发射端使用MIMO预编码实现的，而RxFJ是在每个链路的接收端利用最先进的自干扰抑制技术实现的(允许无线电取消其发射信号的自干扰效应)。我们表明，通过在每个链路的发送端仔细分配信息信号和TxFJ之间的功率，相应的接收器能够独立于任何多用户干扰因素决定使用RxFJ。这种能力使接收机不必在窃听者处测量多用户干扰。由于每个环节都遵循这种策略，我们将这种互动建模为非合作游戏。给出了该博弈存在唯一纳什均衡的充分条件。然后，我们提出了一个鲁棒版本的游戏，只需要窃听信道的统计知识。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 IEEE International Conference on Communications Workshops (ICC Workshops)

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