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Autores principales: Sahin, Ali Fuat, Salan, Onur, Hokelek, Ibrahim, Gorcin, Ali
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2501.18917
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author Sahin, Ali Fuat
Salan, Onur
Hokelek, Ibrahim
Gorcin, Ali
author_facet Sahin, Ali Fuat
Salan, Onur
Hokelek, Ibrahim
Gorcin, Ali
contents Open Radio Access Network (O-RAN) along with artificial intelligence, machine learning, cloud and edge networking, and virtualization are important enablers for designing flexible and software-driven programmable wireless networks. In addition, Reconfigurable Intelligent Surfaces (RIS) represent an innovative technology to direct incoming radio signals toward desired locations by software-controlled passive reflecting antenna elements. Despite their distinctive potential, there has been limited exploration of integrating RIS with the O-RAN framework, an area that holds promise for enhancing next-generation wireless systems. This paper addresses this gap by designing and developing the RIS optimization xApps within an O-RAN-based real-time 5G environment. We perform extensive measurement experiments using an end-to-end 5G testbed including the RIS prototype in a multi-user scenario. The results demonstrate that the RIS can be utilized either to boost the performance of the selected user or to provide the fairness among the users or to balance the tradeoff between the performance and fairness.
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institution arXiv
publishDate 2025
record_format arxiv
spellingShingle RIS Meets O-RAN: A Practical Demonstration of Multi-user RIS Optimization through RIC
Sahin, Ali Fuat
Salan, Onur
Hokelek, Ibrahim
Gorcin, Ali
Signal Processing
Open Radio Access Network (O-RAN) along with artificial intelligence, machine learning, cloud and edge networking, and virtualization are important enablers for designing flexible and software-driven programmable wireless networks. In addition, Reconfigurable Intelligent Surfaces (RIS) represent an innovative technology to direct incoming radio signals toward desired locations by software-controlled passive reflecting antenna elements. Despite their distinctive potential, there has been limited exploration of integrating RIS with the O-RAN framework, an area that holds promise for enhancing next-generation wireless systems. This paper addresses this gap by designing and developing the RIS optimization xApps within an O-RAN-based real-time 5G environment. We perform extensive measurement experiments using an end-to-end 5G testbed including the RIS prototype in a multi-user scenario. The results demonstrate that the RIS can be utilized either to boost the performance of the selected user or to provide the fairness among the users or to balance the tradeoff between the performance and fairness.
title RIS Meets O-RAN: A Practical Demonstration of Multi-user RIS Optimization through RIC
topic Signal Processing
url https://arxiv.org/abs/2501.18917