Joint training of the superimposed direct and reflected links in reconfigurable intelligent surface assisted multiuser communications
Joint training of the superimposed direct and reflected links in reconfigurable intelligent surface assisted multiuser communications
In reconfigurable intelligent surface (RIS)-assisted systems the acquisition of channel state information and the optimization of reflecting coefficients constitute major design challenges. In this paper, a novel channel training-based protocol is proposed, which is capable of striking a flexible trade-off between performance, pilot overhead and complexity. More specifically, first of all , we conceive a holistic protocol that intrinsically amalgamates the existing channel estimation and passive beamforming optimization for creating a new unified scheme. Secondly , we propose a new channel training framework. In contrast to the conventional channel estimation arrangements, our new framework divides the training phase into several periods and has the compelling benefit of directly estimating the superimposed end-to-end channel instead of separately estimating the direct BS-user and reflected RIS links, which would not lend itself to near-instantaneous reconfiguration in the face of high-Doppler mobility. As a result, the RIS reflecting coefficients are optimized by comparing the objective function values over multiple training periods, which leads to optimal performance, despite its reduced complexity as well as reduced signaling and pilot overhead. Thirdly , we analyze the theoretical performance of both the channel estimation-based protocol and the channel training-based protocol in the presence of channel estimation errors. Finally , our theoretical analysis is confirmed by numerical simulations. In particular, the simulation results demonstrate that our channel training-based protocol is more competitive than the channel estimation-based protocol in the presence of channel estimation errors.
739 - 754
An, Jiancheng
38f5bae7-e6d1-4767-8e81-b402ac61943f
Xu, Chao
5710a067-6320-4f5a-8689-7881f6c46252
Wang, Li
f54669eb-8e6b-43ea-a6df-47cda21d6950
Liu, Yusha
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Gan, Lu
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Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
1 June 2022
An, Jiancheng
38f5bae7-e6d1-4767-8e81-b402ac61943f
Xu, Chao
5710a067-6320-4f5a-8689-7881f6c46252
Wang, Li
f54669eb-8e6b-43ea-a6df-47cda21d6950
Liu, Yusha
711a72e8-e8be-4be4-a79d-ea1413e7012a
Gan, Lu
0a6bc3c0-b9b0-4125-ad4d-e065fdd98213
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
An, Jiancheng, Xu, Chao, Wang, Li, Liu, Yusha, Gan, Lu and Hanzo, Lajos
(2022)
Joint training of the superimposed direct and reflected links in reconfigurable intelligent surface assisted multiuser communications.
IEEE Transactions on Green Communications and Networking, 6 (2), .
(doi:10.1109/TGCN.2022.3143226).
Abstract
In reconfigurable intelligent surface (RIS)-assisted systems the acquisition of channel state information and the optimization of reflecting coefficients constitute major design challenges. In this paper, a novel channel training-based protocol is proposed, which is capable of striking a flexible trade-off between performance, pilot overhead and complexity. More specifically, first of all , we conceive a holistic protocol that intrinsically amalgamates the existing channel estimation and passive beamforming optimization for creating a new unified scheme. Secondly , we propose a new channel training framework. In contrast to the conventional channel estimation arrangements, our new framework divides the training phase into several periods and has the compelling benefit of directly estimating the superimposed end-to-end channel instead of separately estimating the direct BS-user and reflected RIS links, which would not lend itself to near-instantaneous reconfiguration in the face of high-Doppler mobility. As a result, the RIS reflecting coefficients are optimized by comparing the objective function values over multiple training periods, which leads to optimal performance, despite its reduced complexity as well as reduced signaling and pilot overhead. Thirdly , we analyze the theoretical performance of both the channel estimation-based protocol and the channel training-based protocol in the presence of channel estimation errors. Finally , our theoretical analysis is confirmed by numerical simulations. In particular, the simulation results demonstrate that our channel training-based protocol is more competitive than the channel estimation-based protocol in the presence of channel estimation errors.
Text
2105.14484
- Accepted Manuscript
More information
Accepted/In Press date: 11 January 2022
e-pub ahead of print date: 14 January 2022
Published date: 1 June 2022
Additional Information:
arXiv:2105.14484
Identifiers
Local EPrints ID: 455543
URI: http://eprints.soton.ac.uk/id/eprint/455543
ISSN: 2473-2400
PURE UUID: 5b3955e3-f4e6-4b26-a292-c82b109ea7e1
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Date deposited: 24 Mar 2022 17:42
Last modified: 21 Sep 2024 04:01
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Contributors
Author:
Jiancheng An
Author:
Chao Xu
Author:
Li Wang
Author:
Yusha Liu
Author:
Lu Gan
Author:
Lajos Hanzo
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