An Open Source Multi-Slice Cell Capacity Framework

CLEI Electron. J. Pub Date : 2022-05-24 DOI:10.19153/cleiej.25.2.2

Claudina Rattaro, Gabriela Pereyra, Lucas Inglés, P. Belzarena

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Abstract

5G is the new 3GPP technology designed to solve a wide range of requirements. On the one hand, it must be able to support high bit rates and ultra-low latency services, and on the other hand, it should be able to connect a massive amount of devices with loose bandwidth and delay requirements. Network Slicing is a key paradigm in 5G, and future 6G networks will inherit it for the concurrent provisioning of diverse quality of service. As scheduling is always a delicate vendor topic and there are not so many free and complete simulation tools to support all 5G features, in this paper, we present Py5cheSim. Py5cheSim is a flexible and open-source simulator based on Python and specially oriented to simulate cell capacity in 3GPP 5G networks and beyond. To the best of our knowledge, Py5cheSim is the first simulator that supports Network Slicing at the Radio Access Network. It offers an environment that allows the development of new scheduling algorithms in a researcher-friendly way without detailed knowledge of the core of the tool. The present work describes its design and implementation choices, the validation process and results, and different use cases.

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一个开源的多片单元容量框架

5G是新的3GPP技术，旨在解决广泛的需求。一方面，它必须能够支持高比特率和超低延迟服务，另一方面，它应该能够连接大量具有松散带宽和延迟要求的设备。网络切片是5G的一个关键范例，未来的6G网络将继承它，以并发提供不同质量的服务。由于调度一直是一个微妙的供应商话题，并且没有那么多免费和完整的仿真工具来支持所有5G功能，在本文中，我们提出了Py5cheSim。Py5cheSim是一个基于Python的灵活开源模拟器，专门用于模拟3GPP 5G网络及以后的蜂窝容量。据我们所知，Py5cheSim是第一个在无线接入网络上支持网络切片的模拟器。它提供了一个环境，允许以研究人员友好的方式开发新的调度算法，而不需要详细了解该工具的核心。当前的工作描述了它的设计和实现选择、验证过程和结果，以及不同的用例。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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CLEI Electron. J.

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