A Fully Open-Source End-to-End Private 5G Network over Unlicensed Frequency Bands

TL;DR

This paper introduces the first fully open-source, end-to-end private 5G network operating in unlicensed frequency bands, demonstrating its feasibility using general purpose hardware and software-defined radio.

Contribution

It presents a novel private 5G network implementation in unlicensed bands, utilizing open-source software and hardware, which was not previously available.

Findings

Hardware choice significantly impacts network performance

The network operates successfully in unlicensed frequency bands

Open-source components enable cost-effective private 5G deployment

Abstract

The fifth generation of mobile networks (5G) represents the latest development in mobile communications. It has been designed to support several types of data traffic and to meet more challenging performance requirements than ever before. These characteristics make 5G attractive for current but also novel public and private services. However, because of reasons related to coverage, regulatory restrictions, business considerations, and cyber security, many of these novel applications can only be deployed as part of a private network. The cost of licensed frequencies makes such approach prohibitive for many stakeholders, and therefore unlicensed frequency bands represent a more affordable option. Even so, private 5G networks for use in globally unlicensed frequency bands do not yet exist. In this paper we present the first end-to-end private 5G network operating in a globally unlicensed frequency band, using general purpose computers, open-source software and software-defined radio. We evidence its working and show that the choice of the hardware can significantly affect the performance of the network.