Wideband channel estimation for IRS-aided systems in the face of beam squint
Wideband channel estimation for IRS-aided systems in the face of beam squint
Intelligent reflecting surfaces (IRSs) improve both the bandwidth and energy efficiency of wideband communication systems by using low-cost passive elements for reflecting the impinging signals with adjustable phase shifts. To realize the full potential of IRS-aided systems, having accurate channel state information (CSI) is indispensable, but it is challenging to acquire, since these passive devices cannot carry out transmit/receive signal processing. The existing channel estimation methods con ceived for wideband IRS-aided communication systems only consider the channel’s frequency selectivity, but ignore the effect of beam squint, despite its severe performance degradation. Hence we fill this gap and conceive wideband channel estimation for IRS-aided communication systems by explicitly taking the effect of beam squint into consideration. We demonstrate that the mutual correlation function between the spatial steering vectors and the cascaded two-hop channel reflected by the IRS has two peaks, which leads to a pair of estimated angles for a single propagation path, due to the effect of beam squint. One of these two estimated angles is the frequency-independent ‘actual angle’, while the other one is the frequency-dependent ‘false angle’. To reduce the influence of false angles on channel estimation, we propose a twin-stage orthogonal matching pursuit (TS-OMP) algorithm, where the path angles of the cascaded two-hop channel reflected by the IRS are obtained in the first stage, while the propagation gains and delays are obtained in the second stage. Moreover, we propose a bespoke pilot design by exploiting the specific the characteristics of the mutual correlation function and cross-entropy theory for achieving an improved channel estimation performance. Our simulation results demonstrate the superiority of the proposed channel estimation algorithm and pilot design over their conventional counterparts.
6240 - 6253
Ma, Siqi
bceaa73e-c147-46c4-bd71-b0e6e04c9fa7
Shen, Wenqian
b777af35-33f9-4043-bdd0-fe1a9a5230ac
An, Jianping
89e008ca-da0f-412e-951e-5aac6a56d63f
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
11 October 2021
Ma, Siqi
bceaa73e-c147-46c4-bd71-b0e6e04c9fa7
Shen, Wenqian
b777af35-33f9-4043-bdd0-fe1a9a5230ac
An, Jianping
89e008ca-da0f-412e-951e-5aac6a56d63f
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Ma, Siqi, Shen, Wenqian, An, Jianping and Hanzo, Lajos
(2021)
Wideband channel estimation for IRS-aided systems in the face of beam squint.
IEEE Transactions on Wireless Communications, 20 (10), .
(doi:10.1109/TWC.2021.3072694).
Abstract
Intelligent reflecting surfaces (IRSs) improve both the bandwidth and energy efficiency of wideband communication systems by using low-cost passive elements for reflecting the impinging signals with adjustable phase shifts. To realize the full potential of IRS-aided systems, having accurate channel state information (CSI) is indispensable, but it is challenging to acquire, since these passive devices cannot carry out transmit/receive signal processing. The existing channel estimation methods con ceived for wideband IRS-aided communication systems only consider the channel’s frequency selectivity, but ignore the effect of beam squint, despite its severe performance degradation. Hence we fill this gap and conceive wideband channel estimation for IRS-aided communication systems by explicitly taking the effect of beam squint into consideration. We demonstrate that the mutual correlation function between the spatial steering vectors and the cascaded two-hop channel reflected by the IRS has two peaks, which leads to a pair of estimated angles for a single propagation path, due to the effect of beam squint. One of these two estimated angles is the frequency-independent ‘actual angle’, while the other one is the frequency-dependent ‘false angle’. To reduce the influence of false angles on channel estimation, we propose a twin-stage orthogonal matching pursuit (TS-OMP) algorithm, where the path angles of the cascaded two-hop channel reflected by the IRS are obtained in the first stage, while the propagation gains and delays are obtained in the second stage. Moreover, we propose a bespoke pilot design by exploiting the specific the characteristics of the mutual correlation function and cross-entropy theory for achieving an improved channel estimation performance. Our simulation results demonstrate the superiority of the proposed channel estimation algorithm and pilot design over their conventional counterparts.
Text
channel_irs_2_v2
- Accepted Manuscript
More information
Accepted/In Press date: 7 April 2021
e-pub ahead of print date: 20 April 2021
Published date: 11 October 2021
Identifiers
Local EPrints ID: 448299
URI: http://eprints.soton.ac.uk/id/eprint/448299
ISSN: 1536-1276
PURE UUID: cda655e6-2d80-4616-b422-87c37b760f8c
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Date deposited: 19 Apr 2021 16:32
Last modified: 18 Mar 2024 05:13
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Contributors
Author:
Siqi Ma
Author:
Wenqian Shen
Author:
Jianping An
Author:
Lajos Hanzo
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