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Beamspace precoding and beam selection for wideband millimeter-Wave MIMO relying on lens antenna arrays

Beamspace precoding and beam selection for wideband millimeter-Wave MIMO relying on lens antenna arrays
Beamspace precoding and beam selection for wideband millimeter-Wave MIMO relying on lens antenna arrays
Millimeter-wave (mmWave) multiple-input multiple-out (MIMO) systems relying on lens antenna arrays are capable of achieving a high antenna-gain at a considerably reduced number of radio frequency (RF) chains via beam selection. However, the traditional beam selection network suffers from significant performance loss in wideband systems due to the effect of beam squint. In this paper, we propose a phase shifter-aided beam selection network, which enables a single RF chain to support multiple focused-energy beams, for mitigating the beam squint in wideband mmWave MIMO systems. Based on this architecture, we additionally design an efficient transmit precoder (TPC) for maximizing the achievable sum-rate, which is composed of beam selection and beamspace precoding. Specifically, we decouple the design problems of beamspace precoding and beam selection by exploiting the fact that the beam selection matrix has a limited number of candidates. For the beamspace precoding design, we propose a successive interference cancellation (SIC)-based method, which decomposes the associated optimization problem into a series of subproblems and solves them successively. For the beam selection design, we propose an energy-max beam selection method for avoiding the high complexity of exhaustive search, and derive the number of required beams for striking an attractive trade-off between the hardware cost and system performance. Our simulation results show that the proposed beamspace precoding and beam selection methods achieve both a higher sum-rate and a higher energy efficiency than its conventional counterparts.
1053-587X
6301-6313
Shen, Wenqian
72145df1-399e-4449-b38e-ebc19cb9f9d8
Bu, Xiangyuan
e3f1fd25-0ca6-4aa9-968e-4fb03a3189a0
Gao, Xinyu
49d41125-a198-493e-b310-8513c9e31607
Xing, Chengwen
2477f24d-3711-47b1-b6b4-80e2672a48d1
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Shen, Wenqian
72145df1-399e-4449-b38e-ebc19cb9f9d8
Bu, Xiangyuan
e3f1fd25-0ca6-4aa9-968e-4fb03a3189a0
Gao, Xinyu
49d41125-a198-493e-b310-8513c9e31607
Xing, Chengwen
2477f24d-3711-47b1-b6b4-80e2672a48d1
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1

Shen, Wenqian, Bu, Xiangyuan, Gao, Xinyu, Xing, Chengwen and Hanzo, Lajos (2019) Beamspace precoding and beam selection for wideband millimeter-Wave MIMO relying on lens antenna arrays. IEEE Transactions on Signal Processing, 67 (24), 6301-6313. (doi:10.1109/TSP.2019.2953595).

Record type: Article

Abstract

Millimeter-wave (mmWave) multiple-input multiple-out (MIMO) systems relying on lens antenna arrays are capable of achieving a high antenna-gain at a considerably reduced number of radio frequency (RF) chains via beam selection. However, the traditional beam selection network suffers from significant performance loss in wideband systems due to the effect of beam squint. In this paper, we propose a phase shifter-aided beam selection network, which enables a single RF chain to support multiple focused-energy beams, for mitigating the beam squint in wideband mmWave MIMO systems. Based on this architecture, we additionally design an efficient transmit precoder (TPC) for maximizing the achievable sum-rate, which is composed of beam selection and beamspace precoding. Specifically, we decouple the design problems of beamspace precoding and beam selection by exploiting the fact that the beam selection matrix has a limited number of candidates. For the beamspace precoding design, we propose a successive interference cancellation (SIC)-based method, which decomposes the associated optimization problem into a series of subproblems and solves them successively. For the beam selection design, we propose an energy-max beam selection method for avoiding the high complexity of exhaustive search, and derive the number of required beams for striking an attractive trade-off between the hardware cost and system performance. Our simulation results show that the proposed beamspace precoding and beam selection methods achieve both a higher sum-rate and a higher energy efficiency than its conventional counterparts.

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Accepted/In Press date: 4 November 2019
e-pub ahead of print date: 15 November 2019
Published date: 15 December 2019
Learn more about Next Generation Wireless research

Identifiers

Local EPrints ID: 435624
URI: http://eprints.soton.ac.uk/id/eprint/435624
DOI: doi:10.1109/TSP.2019.2953595
ISSN: 1053-587X
PURE UUID: 0569b715-b1bd-410e-91c4-8d3d8cc157c6
ORCID for Lajos Hanzo: ORCID iD orcid.org/0000-0002-2636-5214

Catalogue record

Date deposited: 14 Nov 2019 17:30
Last modified: 18 Mar 2024 02:36

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Contributors

Author: Wenqian Shen
Author: Xiangyuan Bu
Author: Xinyu Gao
Author: Chengwen Xing
Author: Lajos Hanzo ORCID iD

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