STAR: Simultaneous Transmission And Reflection for 360° Coverage by Intelligent Surfaces
STAR: Simultaneous Transmission And Reflection for 360° Coverage by Intelligent Surfaces
A novel simultaneously transmitting and reflecting (STAR) system design relying on reconfigurable intelligent surfaces (RISs) is conceived. First, an existing prototype is reviewed and the potential benefits of STAR-RISs are discussed. Then, the key differences between conventional reflecting-only RISs and STAR-RISs are identified from the perspectives of hardware design, physics principles, and communication system design. Furthermore, the basic signal model of STAR-RISs is introduced, and three practical protocols are proposed for their operation, namely energy splitting, mode switching, and time switching. Based on the proposed protocols, a range of promising application scenarios are put forward for integrating STAR-RISs into next-generation wireless networks. By considering the downlink of a typical RIS-aided multiple-input single-output (MISO) system, numerical case studies are provided for revealing the superiority of STAR-RISs over other baselines, when employing the proposed protocols. Finally, several open research problems are discussed.
Hanzo, Lajos
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Liu, Yuanwei
edcf36fa-2653-46c0-8e36-e8144010498e
Mu, Xidong
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Xu, Jiaqi
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Schober, Robert
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Hao, Yang
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Poor, H. Vincent
2ce6442b-62db-47b3-8d8e-484e7fad51af
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Liu, Yuanwei
edcf36fa-2653-46c0-8e36-e8144010498e
Mu, Xidong
c2b5e42c-0568-40f6-92fa-c1364aa7ee54
Xu, Jiaqi
075ebef2-7a31-472f-8f2d-019db84e50ff
Schober, Robert
42d5dec0-1ec3-4dff-b2c2-27f172c4a555
Hao, Yang
8450eaa4-843c-4b86-b951-b413942d4453
Poor, H. Vincent
2ce6442b-62db-47b3-8d8e-484e7fad51af
Hanzo, Lajos, Liu, Yuanwei, Mu, Xidong, Xu, Jiaqi, Schober, Robert, Hao, Yang and Poor, H. Vincent
(2021)
STAR: Simultaneous Transmission And Reflection for 360° Coverage by Intelligent Surfaces.
IEEE Wireless Communications.
(doi:10.48550/arXiv.2103.09104).
(In Press)
Abstract
A novel simultaneously transmitting and reflecting (STAR) system design relying on reconfigurable intelligent surfaces (RISs) is conceived. First, an existing prototype is reviewed and the potential benefits of STAR-RISs are discussed. Then, the key differences between conventional reflecting-only RISs and STAR-RISs are identified from the perspectives of hardware design, physics principles, and communication system design. Furthermore, the basic signal model of STAR-RISs is introduced, and three practical protocols are proposed for their operation, namely energy splitting, mode switching, and time switching. Based on the proposed protocols, a range of promising application scenarios are put forward for integrating STAR-RISs into next-generation wireless networks. By considering the downlink of a typical RIS-aided multiple-input single-output (MISO) system, numerical case studies are provided for revealing the superiority of STAR-RISs over other baselines, when employing the proposed protocols. Finally, several open research problems are discussed.
Text
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- Accepted Manuscript
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Accepted/In Press date: 18 August 2021
Identifiers
Local EPrints ID: 455281
URI: http://eprints.soton.ac.uk/id/eprint/455281
ISSN: 1536-1284
PURE UUID: be91788c-bccd-4a7e-95dd-69fc94d5d59f
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Date deposited: 16 Mar 2022 17:51
Last modified: 17 Mar 2024 02:35
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Contributors
Author:
Lajos Hanzo
Author:
Yuanwei Liu
Author:
Xidong Mu
Author:
Jiaqi Xu
Author:
Robert Schober
Author:
Yang Hao
Author:
H. Vincent Poor
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