Research on lightweight core network solutions for 5G private networks

Proceedings of the 2023 4th International Conference on Computing, Networks and Internet of Things Pub Date : 2023-05-26 DOI:10.1145/3603781.3603843

Zhichao Zeng, Hong Zhang

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Abstract

Unlike traditional 5G public network services, 5G vertical industry applications have highly customized requirements in terms of coverage, latency, reliability and transmission bandwidth, which differ greatly from traditional public 5G networks, making it difficult to adopt a unified 5G public network architecture and performance requirements. Light-weight 5G Core network can provide a good solution. This paper proposes a lightweight 5G private network architecture design scheme, incorporating Mobile Edge Computing(MEC) architecture on a user side to achieve flexible and mobile rapid deployment of 5G private networks, and proposes a lightweight access authentication process applicable to 5G private networks, reducing redundant processes and improving the overall performance of the system. Through experimental verification, it can effectively reduce the access delay and end-to-end transmission delay of terminals. CCS CONCEPTS•Networks∼Network performance evaluation∼Network experimentation•Networks∼Network architectures∼Network design principles•Networks∼Network protocols∼Cross-layer protocols

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5G专网轻量化核心网解决方案研究

与传统5G公共网络业务不同，5G垂直行业应用在覆盖、时延、可靠性、传输带宽等方面都有高度定制化的要求，与传统公共5G网络存在较大差异，难以采用统一的5G公共网络架构和性能要求。轻量化的5G核心网可以提供很好的解决方案。本文提出了一种轻量级的5G专网架构设计方案，在用户侧结合移动边缘计算(Mobile Edge Computing, MEC)架构，实现5G专网的灵活移动快速部署，并提出了一种适用于5G专网的轻量级接入认证流程，减少冗余流程，提高系统整体性能。通过实验验证，可以有效降低终端的接入延迟和端到端传输延迟。CCS概念•网络~网络性能评估~网络实验•网络~网络架构~网络设计原则•网络~网络协议~跨层协议

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Proceedings of the 2023 4th International Conference on Computing, Networks and Internet of Things

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