可重构智能表面的扩展维也纳系统级模拟器

公共管理高层论坛 Pub Date : 2023-06-06 DOI:10.1109/EuCNC/6GSummit58263.2023.10188354

Le Hao, Stefan Schwarz, M. Rupp

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引用次数: 0

摘要

可重构智能表面(RISs)被认为是下一代无线通信的一个有前途的研究方向。在系统级模拟器(SLS)中进行大量的仿真是分析ris辅助的大规模无线网络系统性能的必要条件。本文介绍了利用MATLAB射线追踪器实现ris辅助传输的专为ris设计的Vienna SLS。最近发表的RIS自由空间路径损失模型(RISFSPL)已被采用以兼容我们的SLS。此外，我们在RISFSPL模型的基础上对射线追踪(RT)模型进行了修正，以获得更精确的真实环境下的路径损失。通过这种方式，我们实现了RISFSPL和RT模型的优点。我们通过在随机和优化的RIS相移的单输入单输出(SISO)场景下的模拟验证了系统的性能。此外，我们通过在由多个基站(BSs)、RISs和用户组成的复杂场景中进行模拟，分析了系统性能。

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The Extended Vienna System-Level Simulator for Reconfigurable Intelligent Surfaces

Reconfigurable intelligent surfaces (RISs) have been considered a promising research direction for the next generation of wireless communications. It is essential to perform extensive simulations in a system-level simulator (SLS) to analyze the system performance of RIS-assisted large-scale wireless networks. This paper introduces the RIS-tailored Vienna SLS that utilizes the MATLAB ray tracer to realize RIS-assisted transmissions. A recently published free space pathloss model for RIS (RISFSPL) has been adopted to be compatible with our SLS. In addition, we modified the ray tracing (RT) model based on the RISFSPL model to obtain a more precise pathloss in a realistic environment. In this way, we realize the advantages of both the RISFSPL and RT models. We verified the system performance through simulations in a single-input single-output (SISO) scenario with random and optimized RIS phase shifts. Furthermore, we analyzed the system performance through simulations in a complex scenario that consists of multiple base stations (BSs), RISs, and users.

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公共管理高层论坛

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385