Channel estimation for hybrid massive MIMO systems with adaptive-resolution ADCs
Channel estimation for hybrid massive MIMO systems with adaptive-resolution ADCs
Achieving high channel estimation accuracy and reducing hardware cost as well as power dissipation constitute substantial challenges in the design of massive multiple-input multiple-output (MIMO) systems. To resolve these difficulties, sophisticated pilot designs have been conceived for the family of energy-efficient hybrid analog-digital (HAD) beamforming architecture relying on adaptive-resolution analog-to-digital converters (RADCs). In this paper, we jointly optimize the pilot sequences, the number of RADC quantization bits and the hybrid receiver combiner in the uplink of multiuser massive MIMO systems. We solve the associated mean square error (MSE) minimization problem of channel estimation in the context of correlated Rayleigh fading channels subject to practical constraints. The associated mixed-integer problem is quite challenging due to the nonconvex nature of the objective function and of the constraints. By relying on advanced fractional programming (FP) techniques, we first recast the original problem into a more tractable yet equivalent form, which allows the decoupling of the fractional objective function. We then conceive a pair of novel algorithms for solving the resultant problems for code book based and codebook-free pilot schemes, respectively. To reduce the design complexity, we also propose a simplified algorithm for the codebook-based pilot scheme. Our simulation results confirm the superiority of the proposed algorithms over the relevant state of- the-art benchmark schemes.
Wang, Yalin
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Chen, Xihan
2928b1c2-b925-4ddd-af36-7fac769dd38b
Cai, Yunlong
dfce4b34-91e5-4cab-8410-0473e463c7d9
Champagne, Benoit
a9bcd1c0-0701-4230-8f5e-af1e060477b5
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
30 December 2021
Wang, Yalin
0eb439eb-f31f-4c69-85bd-9fce919053ec
Chen, Xihan
2928b1c2-b925-4ddd-af36-7fac769dd38b
Cai, Yunlong
dfce4b34-91e5-4cab-8410-0473e463c7d9
Champagne, Benoit
a9bcd1c0-0701-4230-8f5e-af1e060477b5
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Wang, Yalin, Chen, Xihan, Cai, Yunlong, Champagne, Benoit and Hanzo, Lajos
(2021)
Channel estimation for hybrid massive MIMO systems with adaptive-resolution ADCs.
IEEE Transactions on Communications.
Abstract
Achieving high channel estimation accuracy and reducing hardware cost as well as power dissipation constitute substantial challenges in the design of massive multiple-input multiple-output (MIMO) systems. To resolve these difficulties, sophisticated pilot designs have been conceived for the family of energy-efficient hybrid analog-digital (HAD) beamforming architecture relying on adaptive-resolution analog-to-digital converters (RADCs). In this paper, we jointly optimize the pilot sequences, the number of RADC quantization bits and the hybrid receiver combiner in the uplink of multiuser massive MIMO systems. We solve the associated mean square error (MSE) minimization problem of channel estimation in the context of correlated Rayleigh fading channels subject to practical constraints. The associated mixed-integer problem is quite challenging due to the nonconvex nature of the objective function and of the constraints. By relying on advanced fractional programming (FP) techniques, we first recast the original problem into a more tractable yet equivalent form, which allows the decoupling of the fractional objective function. We then conceive a pair of novel algorithms for solving the resultant problems for code book based and codebook-free pilot schemes, respectively. To reduce the design complexity, we also propose a simplified algorithm for the codebook-based pilot scheme. Our simulation results confirm the superiority of the proposed algorithms over the relevant state of- the-art benchmark schemes.
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Published date: 30 December 2021
Identifiers
Local EPrints ID: 453320
URI: http://eprints.soton.ac.uk/id/eprint/453320
ISSN: 0090-6778
PURE UUID: 64cdc65f-d882-4dd3-87fb-86c8b8a8dcf6
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Date deposited: 12 Jan 2022 17:43
Last modified: 18 Mar 2024 05:14
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Contributors
Author:
Yalin Wang
Author:
Xihan Chen
Author:
Yunlong Cai
Author:
Benoit Champagne
Author:
Lajos Hanzo
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