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This paper concerns maximizing the minimum achievable secrecy rate of a two-way relay network in the presence of an eavesdropper, in which two nodes aim to exchange messages in two hops, using a multi-antenna relay. Throughout the first hop, the two nodes simultaneously transmit their messages to the relay. In the second hop, the relay broadcasts a combination of the received information to the users such that the transmitted signal lies in the null space of the eavesdropper's channel; this is called null space beamforming (NSBF). The best NSBF matrix for maximizing the minimum achievable secrecy rate is studied, showing that the problem is not convex in general. To address this issue, the problem is divided into three sub-problems: a close-to-optimal solution is derived by using the semi-definite relaxation (SDR) technique. Simulation results demonstrate the superiority of the proposed method w.r.t. the most well-known method addressed in the literature.

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Achievable secrecy rate of wiretap channels incorporating multi‐input–multi‐output amplify and forward relaying

Mirzaee

Akhlaghi

2016

IET Communications

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Secrecy Capacity of Two-Hop Relay Assisted Wiretap Channels

Mirzaee

Akhlaghi

2016

Wireless Pers Commun

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Incorporating the physical layer characteristics to secure communications has received considerable attention in recent years. Moreover, cooperation with some nodes of network can give benefits of multiple-antenna systems, increasing the secrecy capacity of such channels. In this paper, we consider cooperative wiretap channel with the help of an Amplify and Forward (AF) relay to transmit confidential messages from source to legitimate receiver in the presence of an eavesdropper. In this regard, the secrecy capacity of AF relying is derived, assuming the relay is subject to a peak power constraint. To this end, an achievable secrecy rate for Gaussian input is evaluated through solving a non-convex optimization problem. Then, it is proved that any rates greater than this secrecy rate is not achievable. To do this, the capacity of a genie-aided channel as an upper bound for the secrecy capacity of the underlying channel is derived, showing this upper bound is equal to the computed achievable secrecy rate with Gaussian input. Accordingly, the corresponding secrecy capacity is compared to the Decode and Forward (DF) strategy which is served as the benchmark in the current work.Index Terms-Secrecy capacity, achievable secrecy rate, physical layer security, cooperative wiretap channel.

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Maximizing the Minimum Achievable Secrecy Rate for a Two-User Gaussian Weak Interference Channel

Mirzaee

Akhlaghi

2019

IEEE Trans.Inform.Forensic Secur.

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Beamforming strategies for multi‐antenna relay‐assisted networks

Mirzaee¹,

Akhlaghi²

2016

IET Communications

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Meysam Mirzaee

Maximising the minimum achievable secrecy rate of two‐way relay networks using the null space beamforming method

Achievable secrecy rate of wiretap channels incorporating multi‐input–multi‐output amplify and forward relaying

Secrecy Capacity of Two-Hop Relay Assisted Wiretap Channels

Maximizing the Minimum Achievable Secrecy Rate for a Two-User Gaussian Weak Interference Channel

Beamforming strategies for multi‐antenna relay‐assisted networks

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