Optimal Power Allocation for Physical Layer Security in Multi-Hop DF Relay Networks

In this paper, we consider secure communications of one source-destination pair in wireless multi-hop decode-and-forward (DF) relay networks. In the presence of an eavesdropper, we derive an optimal power allocation strategy to maximize achievable secrecy rates under an overall transmit power constr...

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Veröffentlicht in:	IEEE transactions on wireless communications 2016-01, Vol.15 (1), p.28-38
1. Verfasser:	Lee, Jong-Ho
Format:	Artikel
Sprache:	eng
Schlagworte:	Allocations Array signal processing Beamforming Channels Codes Communication channels Maximization node cooperation Optimization Physical layer security power allocation Relay Relay networks Relay networks (telecommunications) Resource management secrecy rate Spread spectrum communication Strategy Wireless communication
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creator	Lee, Jong-Ho
description	In this paper, we consider secure communications of one source-destination pair in wireless multi-hop decode-and-forward (DF) relay networks. In the presence of an eavesdropper, we derive an optimal power allocation strategy to maximize achievable secrecy rates under an overall transmit power constraint assuming that a single relay is located at each individual hop. We demonstrate that the optimal power allocation is obtained when the overall power constraint and the DF-relaying constraints necessary to guarantee that each DF relay correctly decodes the information signals hold with equality, which rely on channel conditions between the source, relays, and destination. The channel conditions for the eavesdropper are shown to only influence relays that may be inactive for secrecy rate maximization. We also consider multiple cooperative relays at each hop to perform cooperative beamforming in the presence of multiple eavesdroppers. To improve the secrecy rate in multi-hop relay networks, which include more than two hops, we propose an iterative cooperative beamformer design and transmit power allocation scheme with relay selection. Numerical results are presented to investigate the secrecy capacity obtained by the optimal power allocation in multi-hop DF relay networks and to confirm the secrecy rate enhancement of the proposed cooperative beamforming scheme.
doi_str_mv	10.1109/TWC.2015.2466091
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In the presence of an eavesdropper, we derive an optimal power allocation strategy to maximize achievable secrecy rates under an overall transmit power constraint assuming that a single relay is located at each individual hop. We demonstrate that the optimal power allocation is obtained when the overall power constraint and the DF-relaying constraints necessary to guarantee that each DF relay correctly decodes the information signals hold with equality, which rely on channel conditions between the source, relays, and destination. The channel conditions for the eavesdropper are shown to only influence relays that may be inactive for secrecy rate maximization. We also consider multiple cooperative relays at each hop to perform cooperative beamforming in the presence of multiple eavesdroppers. To improve the secrecy rate in multi-hop relay networks, which include more than two hops, we propose an iterative cooperative beamformer design and transmit power allocation scheme with relay selection. Numerical results are presented to investigate the secrecy capacity obtained by the optimal power allocation in multi-hop DF relay networks and to confirm the secrecy rate enhancement of the proposed cooperative beamforming scheme.</abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/TWC.2015.2466091</doi><tpages>11</tpages></addata></record>
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subjects	Allocations Array signal processing Beamforming Channels Codes Communication channels Maximization node cooperation Optimization Physical layer security power allocation Relay Relay networks Relay networks (telecommunications) Resource management secrecy rate Spread spectrum communication Strategy Wireless communication
title	Optimal Power Allocation for Physical Layer Security in Multi-Hop DF Relay Networks
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