A new class of analog precoding for multi-antenna multi-user communications over high-frequency bands
A new class of analog precoding for multi-antenna multi-user communications over high-frequency bands
A network relying on a large antenna-array-aided base station is designed for delivering multiple information streams to multi-antenna users over high-frequency bands such as the millimeter-wave and sub-Terahertz bands. The state-of-the-art analog precoder (AP) dissipates excessive circuit power due to its reliance on a large number of phase shifters. To mitigate the power consumption, we propose a novel AP relying on a controlled number of phase shifters. Within this new AP framework, we design a hybrid precoder (HP) for maximizing the users’ minimum throughput, which poses a computationally challenging problem of large-scale, nonsmooth mixed discrete-continuous log-determinant optimization. To tackle this challenge, we develop an algorithm which iterates through solving convex problems to generate a sequence of HPs that converges to the max-min solution. We also introduce a new framework of smooth optimization termed soft max-min throughput optimization. Additionally, we develop another algorithm, which iterates by evaluating closed-form expressions to generate a sequence of HPs that converges to the soft max-min solution. Simulation results reveal that the HP soft max-min solution approaches the Pareto-optimal solution constructed for simultaneously optimizing both the minimum throughput and sum-throughput. Explicitly, it achieves a minimum throughput similar to directly maximizing the users’ minimum throughput and it also attains a sum-throughput similar to directly maximizing the sum-throughput.
analog precoding, digital precoding, hybrid precoding, log-determinant optimization, Millimeter-wave and terahertz bands, Minimax techniques, mixed discrete continuous optimization, multi-stream delivery, Optimization, Phase shifters, Power demand, power-efficiency, Radio frequency, Throughput, Wireless communication
11493-11507
Zhu, W.
5996f1d5-1840-4430-a9a4-10c993db0805
Tuan, H.D.
47dc4b79-2c0f-43bd-8952-d8f4a6a04711
Dutkiewicz, E.
758c11d4-76a2-4df8-8ec9-451a8ff91aab
Poor, H.V.
ace801ca-0c45-451f-9509-217ea29e32e1
Hanzo, L.
66e7266f-3066-4fc0-8391-e000acce71a1
3 April 2024
Zhu, W.
5996f1d5-1840-4430-a9a4-10c993db0805
Tuan, H.D.
47dc4b79-2c0f-43bd-8952-d8f4a6a04711
Dutkiewicz, E.
758c11d4-76a2-4df8-8ec9-451a8ff91aab
Poor, H.V.
ace801ca-0c45-451f-9509-217ea29e32e1
Hanzo, L.
66e7266f-3066-4fc0-8391-e000acce71a1
Zhu, W., Tuan, H.D. and Dutkiewicz, E.
,
et al.
(2024)
A new class of analog precoding for multi-antenna multi-user communications over high-frequency bands.
IEEE Transactions on Wireless Communications, 23 (9), .
(doi:10.1109/TWC.2024.3382478).
Abstract
A network relying on a large antenna-array-aided base station is designed for delivering multiple information streams to multi-antenna users over high-frequency bands such as the millimeter-wave and sub-Terahertz bands. The state-of-the-art analog precoder (AP) dissipates excessive circuit power due to its reliance on a large number of phase shifters. To mitigate the power consumption, we propose a novel AP relying on a controlled number of phase shifters. Within this new AP framework, we design a hybrid precoder (HP) for maximizing the users’ minimum throughput, which poses a computationally challenging problem of large-scale, nonsmooth mixed discrete-continuous log-determinant optimization. To tackle this challenge, we develop an algorithm which iterates through solving convex problems to generate a sequence of HPs that converges to the max-min solution. We also introduce a new framework of smooth optimization termed soft max-min throughput optimization. Additionally, we develop another algorithm, which iterates by evaluating closed-form expressions to generate a sequence of HPs that converges to the soft max-min solution. Simulation results reveal that the HP soft max-min solution approaches the Pareto-optimal solution constructed for simultaneously optimizing both the minimum throughput and sum-throughput. Explicitly, it achieves a minimum throughput similar to directly maximizing the users’ minimum throughput and it also attains a sum-throughput similar to directly maximizing the sum-throughput.
Text
clean-for-xplore (4)
- Accepted Manuscript
More information
Accepted/In Press date: 25 March 2024
e-pub ahead of print date: 3 April 2024
Published date: 3 April 2024
Additional Information:
Publisher Copyright:
IEEE
Keywords:
analog precoding, digital precoding, hybrid precoding, log-determinant optimization, Millimeter-wave and terahertz bands, Minimax techniques, mixed discrete continuous optimization, multi-stream delivery, Optimization, Phase shifters, Power demand, power-efficiency, Radio frequency, Throughput, Wireless communication
Identifiers
Local EPrints ID: 488723
URI: http://eprints.soton.ac.uk/id/eprint/488723
ISSN: 1536-1276
PURE UUID: 79a1fbad-b955-4614-a0ac-64b93b1d5eaa
Catalogue record
Date deposited: 04 Apr 2024 16:57
Last modified: 01 Nov 2024 02:32
Export record
Altmetrics
Contributors
Author:
W. Zhu
Author:
H.D. Tuan
Author:
E. Dutkiewicz
Author:
H.V. Poor
Author:
L. Hanzo
Corporate Author: et al.
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics