Site-specific beam codebook design for distributed RIS networks using deep reinforcement learning
Site-specific beam codebook design for distributed RIS networks using deep reinforcement learning
Reconfigurable intelligent surfaces (RISs) have recently been identified as a prominent technology capable of augmenting propagation environments by intelligently redirecting signals towards designated receivers. Instead of having a large single RIS, this paper proposes a distributed deployment of smaller RISs to reap the full benefits of spatial diversity and reduced computational complexity. Nonetheless, determining the optimal phase shift configuration for distributed RISs presents challenges, attributed to the passive nature of their reflective elements and complexities associated with obtaining accurate channel state information (CSI) in millimeter wave multi-input multi-output systems. To address this, the paper introduces a multi-agent deep reinforcement learning (MA-DRL) framework that circumvents the need for CSI, relying solely on received power measurements for feedback. The MA-DRL framework jointly designs beamforming and reflection codebooks for the base station and distributed RISs, respectively. Simulation results demonstrate the superiority of the distributed RIS approach compared to a centralized RIS configuration with an equivalent number of reflecting elements, showcasing reduced beam training overhead. Moreover, the proposed MA-DRL method outperforms widely-adopted discrete Fourier transform (DFT) codebooks, achieving an impressive 89% reduction in beam training overhead while utilizing only four beams.
571-577
Abdallah, Asmaa
86b80268-48be-4bc8-9577-c989e496e459
Celik, Abdulkadir
f8e72266-763c-4849-b38e-2ea2f50a69d0
Mansour, Mohammad M.
d26c1cf6-ff88-4871-9999-624781b0de3b
Eltawil, Ahmed M.
5eb9e965-5ec8-4da1-baee-c3cab0fb2a72
21 March 2024
Abdallah, Asmaa
86b80268-48be-4bc8-9577-c989e496e459
Celik, Abdulkadir
f8e72266-763c-4849-b38e-2ea2f50a69d0
Mansour, Mohammad M.
d26c1cf6-ff88-4871-9999-624781b0de3b
Eltawil, Ahmed M.
5eb9e965-5ec8-4da1-baee-c3cab0fb2a72
Abdallah, Asmaa, Celik, Abdulkadir, Mansour, Mohammad M. and Eltawil, Ahmed M.
(2024)
Site-specific beam codebook design for distributed RIS networks using deep reinforcement learning.
In 2023 IEEE Globecom Workshops (GC Wkshps).
IEEE.
.
(doi:10.1109/GCWkshps58843.2023.10464545).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Reconfigurable intelligent surfaces (RISs) have recently been identified as a prominent technology capable of augmenting propagation environments by intelligently redirecting signals towards designated receivers. Instead of having a large single RIS, this paper proposes a distributed deployment of smaller RISs to reap the full benefits of spatial diversity and reduced computational complexity. Nonetheless, determining the optimal phase shift configuration for distributed RISs presents challenges, attributed to the passive nature of their reflective elements and complexities associated with obtaining accurate channel state information (CSI) in millimeter wave multi-input multi-output systems. To address this, the paper introduces a multi-agent deep reinforcement learning (MA-DRL) framework that circumvents the need for CSI, relying solely on received power measurements for feedback. The MA-DRL framework jointly designs beamforming and reflection codebooks for the base station and distributed RISs, respectively. Simulation results demonstrate the superiority of the distributed RIS approach compared to a centralized RIS configuration with an equivalent number of reflecting elements, showcasing reduced beam training overhead. Moreover, the proposed MA-DRL method outperforms widely-adopted discrete Fourier transform (DFT) codebooks, achieving an impressive 89% reduction in beam training overhead while utilizing only four beams.
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Published date: 21 March 2024
Venue - Dates:
2023 IEEE Globecom Workshops, GC Wkshps 2023, , Kuala Lumpur, Malaysia, 2023-12-04 - 2023-12-08
Identifiers
Local EPrints ID: 505763
URI: http://eprints.soton.ac.uk/id/eprint/505763
PURE UUID: 4fb49c59-218c-4a1a-9997-a4258f3bf82a
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Date deposited: 17 Oct 2025 16:47
Last modified: 18 Oct 2025 02:18
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Contributors
Author:
Asmaa Abdallah
Author:
Abdulkadir Celik
Author:
Mohammad M. Mansour
Author:
Ahmed M. Eltawil
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