Acing versatility of RIS partitioning: An Experimental Proof-of-Concept Campaign
Acing versatility of RIS partitioning: An Experimental Proof-of-Concept Campaign
Reconfigurable Intelligent Surfaces (RIS) have emerged as an innovative technology for enhancing signal reception by manipulating the channel state and enabling passive beamforming toward targeted directions. Nonetheless, the effective deployment of RIS relies on precise phase shift optimization, a challenge exacerbated by restricted computational resources and the need for accurate channel state information. In this context, predefined codebooks and RIS partitioning deployment offer strategic solutions, enabling the RIS to serve multiple users simultaneously by assigning different partitions to various tasks and selecting the optimal codeword for specific objectives. As efforts to standardize RIS, this article presents an experimental testbed developed to assess the impact of RIS partitioning in the millimeter-wave band across several scenarios, including enhancing data rates in grant-free non-orthogonal multiple access, managing interference in heterogeneous networks, and maximizing secrecy capacity in physical layer security contexts. By investigating these case studies, this article provides empirical insights into the versatility and effectiveness of RIS partitioning across various communication environments. The research concludes by discussing the crucial challenges in RIS hardware design and implementation, emphasizing innovative pathways for advancing RIS technology in wireless infrastructures.
1-8
Nasser, Ahmed
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Celik, Abdulkadir
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Abdallah, Asmaa
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Wang, Ruiqi
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Yang, Yiming
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Shamim, Atif
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Eltawil, Ahmed M.
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Nasser, Ahmed
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Celik, Abdulkadir
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Abdallah, Asmaa
86b80268-48be-4bc8-9577-c989e496e459
Wang, Ruiqi
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Yang, Yiming
cf893242-59bf-44e7-972d-b8d549e6cc90
Shamim, Atif
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Eltawil, Ahmed M.
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Nasser, Ahmed, Celik, Abdulkadir, Abdallah, Asmaa, Wang, Ruiqi, Yang, Yiming, Shamim, Atif and Eltawil, Ahmed M.
(2025)
Acing versatility of RIS partitioning: An Experimental Proof-of-Concept Campaign.
IEEE Communications Standards Magazine, .
(doi:10.1109/MCOMSTD.2025.3608130).
Abstract
Reconfigurable Intelligent Surfaces (RIS) have emerged as an innovative technology for enhancing signal reception by manipulating the channel state and enabling passive beamforming toward targeted directions. Nonetheless, the effective deployment of RIS relies on precise phase shift optimization, a challenge exacerbated by restricted computational resources and the need for accurate channel state information. In this context, predefined codebooks and RIS partitioning deployment offer strategic solutions, enabling the RIS to serve multiple users simultaneously by assigning different partitions to various tasks and selecting the optimal codeword for specific objectives. As efforts to standardize RIS, this article presents an experimental testbed developed to assess the impact of RIS partitioning in the millimeter-wave band across several scenarios, including enhancing data rates in grant-free non-orthogonal multiple access, managing interference in heterogeneous networks, and maximizing secrecy capacity in physical layer security contexts. By investigating these case studies, this article provides empirical insights into the versatility and effectiveness of RIS partitioning across various communication environments. The research concludes by discussing the crucial challenges in RIS hardware design and implementation, emphasizing innovative pathways for advancing RIS technology in wireless infrastructures.
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Acing_Versatility_of_RIS_Partitioning_An_Experimental_Proof-of-Concept_Campaign
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e-pub ahead of print date: 22 September 2025
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Local EPrints ID: 505914
URI: http://eprints.soton.ac.uk/id/eprint/505914
PURE UUID: ca5077a5-05d8-44f9-b3e4-3cfdda26a2f2
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Date deposited: 23 Oct 2025 16:34
Last modified: 24 Oct 2025 02:14
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Author:
Ahmed Nasser
Author:
Abdulkadir Celik
Author:
Asmaa Abdallah
Author:
Ruiqi Wang
Author:
Yiming Yang
Author:
Atif Shamim
Author:
Ahmed M. Eltawil
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