Joint reconfigurable intelligent surface location and passive beamforming optimization for maximizing the secrecy-rate
Joint reconfigurable intelligent surface location and passive beamforming optimization for maximizing the secrecy-rate
The physical layer security (PLS) is investigated for reconfigurable intelligent surface (RIS) assisted wireless networks, where a source transmits its confidential information to a legitimate destination with the aid of a single small RIS in the presence of a malicious eavesdropper. A new joint RIS location and passive beamforming (J-LPB) optimization scheme is proposed for the sake of maximizing the secrecy rate under the RIS location constraint and the constraint that the modulus of the reflecting coefficient at each RIS’s unit is not larger than 1. Specifically, we analyze the optimal location of the RIS, and conclude that the product involving the source-RIS distance and the RIS-destination distance should be minimized. Since the product minimization problem is nonconvex, we then propose a two-tier optimization algorithm for solving it. Based on the near-optimal RIS 3D location obtained, we further formulate the passive beamforming optimization problem, and then propose to apply the Charnes-Cooper transformation along with the sequential rank-one constraint relaxation (SROCR) algorithm to solve it. Our numerical results show that the secrecy rate of the proposed J-LPB optimization scheme is higher than that of the benchmarks. Explicitly, we use the following benchmarks: the near-source-based RIS location and passive beamforming (NSBLPB) optimization scheme, the near-destination-based RIS location and passive beamforming (NDB-LPB) optimization scheme, and the random RIS location and passive beamforming (R-LPB) optimization scheme. Finally, the benefits of our J-LPB scheme are further increased with the number of RIS units.
Guo, Haiyan
59d47b91-88ec-4d29-b030-ab1936b9b5b7
Yang, Zhen
e45a7609-5bfa-407d-bbd4-f3091e0fe14b
Zou, Yulong
0359c94b-b989-448a-8164-da4047c4823f
Lyu, Bin
b087af85-7ca1-4121-8508-2ed70ae0c603
Jiang, Yuhan
aaf141ac-2016-439f-8567-90e7476dac23
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Guo, Haiyan
59d47b91-88ec-4d29-b030-ab1936b9b5b7
Yang, Zhen
e45a7609-5bfa-407d-bbd4-f3091e0fe14b
Zou, Yulong
0359c94b-b989-448a-8164-da4047c4823f
Lyu, Bin
b087af85-7ca1-4121-8508-2ed70ae0c603
Jiang, Yuhan
aaf141ac-2016-439f-8567-90e7476dac23
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Guo, Haiyan, Yang, Zhen, Zou, Yulong, Lyu, Bin, Jiang, Yuhan and Hanzo, Lajos
(2022)
Joint reconfigurable intelligent surface location and passive beamforming optimization for maximizing the secrecy-rate.
IEEE Transactions on Vehicular Technology.
(In Press)
Abstract
The physical layer security (PLS) is investigated for reconfigurable intelligent surface (RIS) assisted wireless networks, where a source transmits its confidential information to a legitimate destination with the aid of a single small RIS in the presence of a malicious eavesdropper. A new joint RIS location and passive beamforming (J-LPB) optimization scheme is proposed for the sake of maximizing the secrecy rate under the RIS location constraint and the constraint that the modulus of the reflecting coefficient at each RIS’s unit is not larger than 1. Specifically, we analyze the optimal location of the RIS, and conclude that the product involving the source-RIS distance and the RIS-destination distance should be minimized. Since the product minimization problem is nonconvex, we then propose a two-tier optimization algorithm for solving it. Based on the near-optimal RIS 3D location obtained, we further formulate the passive beamforming optimization problem, and then propose to apply the Charnes-Cooper transformation along with the sequential rank-one constraint relaxation (SROCR) algorithm to solve it. Our numerical results show that the secrecy rate of the proposed J-LPB optimization scheme is higher than that of the benchmarks. Explicitly, we use the following benchmarks: the near-source-based RIS location and passive beamforming (NSBLPB) optimization scheme, the near-destination-based RIS location and passive beamforming (NDB-LPB) optimization scheme, and the random RIS location and passive beamforming (R-LPB) optimization scheme. Finally, the benefits of our J-LPB scheme are further increased with the number of RIS units.
Text
Joint Reconfigurable Intelligent Surface Location and Passive Beamforming Optimization for Maximizing the Secrecy-Rate
- Accepted Manuscript
More information
Accepted/In Press date: 29 September 2022
Identifiers
Local EPrints ID: 470980
URI: http://eprints.soton.ac.uk/id/eprint/470980
ISSN: 0018-9545
PURE UUID: 7d8b79d6-087e-4984-a897-5050093ddc1c
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Date deposited: 21 Oct 2022 16:45
Last modified: 17 Mar 2024 02:35
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Contributors
Author:
Haiyan Guo
Author:
Zhen Yang
Author:
Yulong Zou
Author:
Bin Lyu
Author:
Yuhan Jiang
Author:
Lajos Hanzo
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