Artificial noise and RIS-aided physical layer security: optimal RIS partitioning and power control
Artificial noise and RIS-aided physical layer security: optimal RIS partitioning and power control
The synergism of reconfigurable intelligent surfaces (RIS) and artificial noise (AN) shows significant promise in improving physical layer security in wireless networks. Accordingly, this letter proposes the virtual partitioning of RIS elements into two parts such that the phase shifts of the different partitions are configured to improve the intended signal at a legitimate user and enhance the impact of AN on an illegitimate user, respectively. To this aim, two problems are defined to jointly optimize the partitioning ratio, and signal/noise transmit power levels for two main objectives. First, we maximize secrecy capacity by satisfying users' quality of service (QoS). Second, we optimize transmit power to establish a secure link by satisfying the QoS of the legitimate user. We provide closed-form solutions subject to the rate constraints on both legitimate and illegitimate users. Simulation results validate the closed-from solutions and show that the proposed RIS-partitioning method dramatically improves SC compared to benchmark methods.
Artificial noise, optimization, partitioning, physical layer security, power control, reconfigurable intelligent surface (RIS), secrecy capacity
992-996
Arzykulov, Sultangali
25fb1b83-665d-4fe7-9e56-81cacc2f8e7a
Celik, Abdulkadir
f8e72266-763c-4849-b38e-2ea2f50a69d0
Nauryzbayev, Galymzhan
bb3ebc7e-94c3-402e-90b9-cdc0e8310140
Eltawil, Ahmed M.
5eb9e965-5ec8-4da1-baee-c3cab0fb2a72
1 June 2023
Arzykulov, Sultangali
25fb1b83-665d-4fe7-9e56-81cacc2f8e7a
Celik, Abdulkadir
f8e72266-763c-4849-b38e-2ea2f50a69d0
Nauryzbayev, Galymzhan
bb3ebc7e-94c3-402e-90b9-cdc0e8310140
Eltawil, Ahmed M.
5eb9e965-5ec8-4da1-baee-c3cab0fb2a72
Arzykulov, Sultangali, Celik, Abdulkadir, Nauryzbayev, Galymzhan and Eltawil, Ahmed M.
(2023)
Artificial noise and RIS-aided physical layer security: optimal RIS partitioning and power control.
IEEE Wireless Communications Letters, 12 (6), .
(doi:10.1109/LWC.2023.3256001).
Abstract
The synergism of reconfigurable intelligent surfaces (RIS) and artificial noise (AN) shows significant promise in improving physical layer security in wireless networks. Accordingly, this letter proposes the virtual partitioning of RIS elements into two parts such that the phase shifts of the different partitions are configured to improve the intended signal at a legitimate user and enhance the impact of AN on an illegitimate user, respectively. To this aim, two problems are defined to jointly optimize the partitioning ratio, and signal/noise transmit power levels for two main objectives. First, we maximize secrecy capacity by satisfying users' quality of service (QoS). Second, we optimize transmit power to establish a secure link by satisfying the QoS of the legitimate user. We provide closed-form solutions subject to the rate constraints on both legitimate and illegitimate users. Simulation results validate the closed-from solutions and show that the proposed RIS-partitioning method dramatically improves SC compared to benchmark methods.
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Published date: 1 June 2023
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Publisher Copyright:
© 2012 IEEE.
Keywords:
Artificial noise, optimization, partitioning, physical layer security, power control, reconfigurable intelligent surface (RIS), secrecy capacity
Identifiers
Local EPrints ID: 504879
URI: http://eprints.soton.ac.uk/id/eprint/504879
ISSN: 2162-2337
PURE UUID: f722cebd-e7f9-4632-950e-e3bdb2746c05
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Date deposited: 19 Sep 2025 16:54
Last modified: 20 Sep 2025 02:30
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Contributors
Author:
Sultangali Arzykulov
Author:
Abdulkadir Celik
Author:
Galymzhan Nauryzbayev
Author:
Ahmed M. Eltawil
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