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Distributed robust artificial-noise-aided secure precoding for wiretap MIMO interference channels

Distributed robust artificial-noise-aided secure precoding for wiretap MIMO interference channels
Distributed robust artificial-noise-aided secure precoding for wiretap MIMO interference channels
We propose a distributed artificial noise-assisted precoding scheme for secure communications over wiretap multiinput multi-output (MIMO) interference channels, where K legitimate transmitter-receiver pairs communicate in the presence of a sophisticated eavesdropper having more receive-antennas than the legitimate user. Realistic constraints are considered by imposing statistical error bounds for the channel state information of both the eavesdropping and interference channels. Based on the asynchronous distributed pricing model, the proposed scheme maximizes the total utility of all the users, where each user’s utility function is defined as the secrecy rate minus the interference cost imposed on other users. Using the weighted minimum mean square error, Schur complement and signdefiniteness techniques, the original non-concave optimization problem is approximated with high accuracy as a quasi-concave problem, which can be solved by the alternating convex search method. Simulation results consolidate our theoretical analysis and show that the proposed scheme outperforms the artificial noise-assisted interference alignment and minimum total meansquare error-based schemes.
MIMO, Physical layer security, artificial noise, distributed precoding, interference channel, robust optimization
1556-6013
10130-10140
Kong, Zhengmin
5c720b0b-1ff5-4038-bde7-1311e2ab43cc
Song, Jing
c3f6ccf2-4c63-487c-9c39-e25382b9ee91
Yang, Shaoshi
376b9d24-235e-49b6-bf17-302260f7e2be
Gan, Li
ddd1245d-c56a-4a2e-a9da-b2b4828a7e67
Meng, Weizhi
796f7937-f345-4b41-8423-18114141070c
Huang, Tao
2373b85f-767e-4f0b-8169-2ec13d7287d5
Chen, Sheng
9310a111-f79a-48b8-98c7-383ca93cbb80
Kong, Zhengmin
5c720b0b-1ff5-4038-bde7-1311e2ab43cc
Song, Jing
c3f6ccf2-4c63-487c-9c39-e25382b9ee91
Yang, Shaoshi
376b9d24-235e-49b6-bf17-302260f7e2be
Gan, Li
ddd1245d-c56a-4a2e-a9da-b2b4828a7e67
Meng, Weizhi
796f7937-f345-4b41-8423-18114141070c
Huang, Tao
2373b85f-767e-4f0b-8169-2ec13d7287d5
Chen, Sheng
9310a111-f79a-48b8-98c7-383ca93cbb80

Kong, Zhengmin, Song, Jing, Yang, Shaoshi, Gan, Li, Meng, Weizhi, Huang, Tao and Chen, Sheng (2024) Distributed robust artificial-noise-aided secure precoding for wiretap MIMO interference channels. IEEE Transactions on Information Forensics Security, 19, 10130-10140. (doi:10.1109/TIFS.2024.3486548).

Record type: Article

Abstract

We propose a distributed artificial noise-assisted precoding scheme for secure communications over wiretap multiinput multi-output (MIMO) interference channels, where K legitimate transmitter-receiver pairs communicate in the presence of a sophisticated eavesdropper having more receive-antennas than the legitimate user. Realistic constraints are considered by imposing statistical error bounds for the channel state information of both the eavesdropping and interference channels. Based on the asynchronous distributed pricing model, the proposed scheme maximizes the total utility of all the users, where each user’s utility function is defined as the secrecy rate minus the interference cost imposed on other users. Using the weighted minimum mean square error, Schur complement and signdefiniteness techniques, the original non-concave optimization problem is approximated with high accuracy as a quasi-concave problem, which can be solved by the alternating convex search method. Simulation results consolidate our theoretical analysis and show that the proposed scheme outperforms the artificial noise-assisted interference alignment and minimum total meansquare error-based schemes.

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Accepted/In Press date: 22 October 2024
Published date: 25 October 2024
Keywords: MIMO, Physical layer security, artificial noise, distributed precoding, interference channel, robust optimization
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Identifiers

Local EPrints ID: 496132
URI: http://eprints.soton.ac.uk/id/eprint/496132
DOI: doi:10.1109/TIFS.2024.3486548
ISSN: 1556-6013
PURE UUID: 4ff8b4b5-99eb-4913-8287-815fe3551a2e

Catalogue record

Date deposited: 05 Dec 2024 17:30
Last modified: 06 Dec 2024 18:07

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Contributors

Author: Zhengmin Kong
Author: Jing Song
Author: Shaoshi Yang
Author: Li Gan
Author: Weizhi Meng
Author: Tao Huang
Author: Sheng Chen

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