Salim El Ghalbzouri;Karim Boutiba;Adlen Ksentini;Mustapha Benjillali
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引用次数: 0
摘要
在这封信中,我们提出了一个基于o - ran的框架,用于6G中可重构智能表面(RIS)控制。关键目标是使RIS控制算法的开发成为在Open RAN (O-RAN)的实时智能控制器(RIC)上运行的xApps。为了验证提出的框架,我们开发了一个基于golang的RIS模拟器GoSimRIS,旨在模拟和检查RIS在各种环境场景中的行为。模拟器通过本信函中设计的专用服务模型(SM)(即E2SM RIS)与RIC相连,该模型允许设计xApps,通过计算理想相移来动态优化RIS系数,并使用从GoSimRIS环境中检索的通道信息实时应用它们以最大化网络性能。最后,我们介绍了一种基于ml的RIS控制机制,该机制作为xApp运行,仅使用发射器(Tx)和接收器(Rx)的位置以及视线(LOS)条件的存在,这对应于6G等工业4.0中的现实室内场景
Neural-Driven Control of RIS in 6G Networks: A GoSimRIS and xApp-Based Framework
In this letter, we propose an O-RAN-based framework for reconfigurable Intelligent Surfaces (RIS) control in 6G. The key objective is to enable the development of RIS control algorithms as xApps running at the real-time intelligent controller (RIC) of Open RAN (O-RAN). To validate the proposed framework, we developed a Golang-based RIS simulator, GoSimRIS, intended to mimic and examine RIS behavior in various environmental scenarios. The simulator is linked with the RIC via a specialized Service Model (SM) devised in this letter, namely E2SM RIS, which allows the design of xApps that dynamically optimize RIS coefficients by computing the ideal phase shifts and applying them in real-time to maximize network performance using channel information that is retrieved from the GoSimRIS environment. Finally, we introduce an ML-based RIS control mechanism that runs as an xApp using only the positions of the transmitter (Tx) and receiver (Rx) and the presence of Line-of-Sight (LOS) conditions, which corresponds to a realistic indoor scenario in 6G such industry 4.0
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