Sparse array design for near-field MU-MIMO: reconfigurable array thinning approach
Sparse array design for near-field MU-MIMO: reconfigurable array thinning approach
Future wireless networks, deploying thousands of antenna elements, may operate in the radiative near-field (NF), enabling spatial multiplexing across both angle and range domains. Sparse arrays have the potential to achieve comparable performance with fewer antenna elements. However, fixed sparse array designs are generally suboptimal under dynamic user distributions, while movable antenna architectures rely on mechanically reconfigurable elements, introducing latency and increased hardware complexity. To address these limitations, we propose a reconfigurable array thinning approach that selectively activates a subset of antennas to form a flexible sparse array design without physical repositioning. We first analyze grating lobes for uniform sparse arrays in the angle and range domains, showing their absence along the range dimension. Based on the analysis, we develop two particle swarm optimization-based strategies: a grating-lobe-based thinned array (GTA) for grating- lobe suppression and a sum-rate-based thinned array (STA) for multiuser sum-rate maximization. Simulation results demonstrate that GTA outperforms conventional uniform sparse arrays, while STA achieves performance comparable to movable antennas, thereby offering a practical and efficient array deployment strategy without the associated mechanical complexity.
eess.SP
Hussain, Ahmed
bd09f80b-548a-4524-8df7-758c050cd578
Abdallah, Asmaa
86b80268-48be-4bc8-9577-c989e496e459
Celik, Abdulkadir
f8e72266-763c-4849-b38e-2ea2f50a69d0
Björnson, Emil
d697dc69-ce91-4ffc-b1f5-c1e9470ae102
Eltawil, Ahmed M.
5eb9e965-5ec8-4da1-baee-c3cab0fb2a72
25 February 2026
Hussain, Ahmed
bd09f80b-548a-4524-8df7-758c050cd578
Abdallah, Asmaa
86b80268-48be-4bc8-9577-c989e496e459
Celik, Abdulkadir
f8e72266-763c-4849-b38e-2ea2f50a69d0
Björnson, Emil
d697dc69-ce91-4ffc-b1f5-c1e9470ae102
Eltawil, Ahmed M.
5eb9e965-5ec8-4da1-baee-c3cab0fb2a72
[Unknown type: UNSPECIFIED]
Abstract
Future wireless networks, deploying thousands of antenna elements, may operate in the radiative near-field (NF), enabling spatial multiplexing across both angle and range domains. Sparse arrays have the potential to achieve comparable performance with fewer antenna elements. However, fixed sparse array designs are generally suboptimal under dynamic user distributions, while movable antenna architectures rely on mechanically reconfigurable elements, introducing latency and increased hardware complexity. To address these limitations, we propose a reconfigurable array thinning approach that selectively activates a subset of antennas to form a flexible sparse array design without physical repositioning. We first analyze grating lobes for uniform sparse arrays in the angle and range domains, showing their absence along the range dimension. Based on the analysis, we develop two particle swarm optimization-based strategies: a grating-lobe-based thinned array (GTA) for grating- lobe suppression and a sum-rate-based thinned array (STA) for multiuser sum-rate maximization. Simulation results demonstrate that GTA outperforms conventional uniform sparse arrays, while STA achieves performance comparable to movable antennas, thereby offering a practical and efficient array deployment strategy without the associated mechanical complexity.
Text
2602.21973v1
- Author's Original
More information
Published date: 25 February 2026
Keywords:
eess.SP
Identifiers
Local EPrints ID: 510353
URI: http://eprints.soton.ac.uk/id/eprint/510353
PURE UUID: 97b89e5e-8eaa-4e25-9d08-bb16679e0c63
Catalogue record
Date deposited: 27 Mar 2026 17:31
Last modified: 28 Mar 2026 03:19
Export record
Altmetrics
Contributors
Author:
Ahmed Hussain
Author:
Asmaa Abdallah
Author:
Abdulkadir Celik
Author:
Emil Björnson
Author:
Ahmed M. Eltawil
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