SDN enhancements for the sliced, deep programmable 5G core

Fabian Eichhorn, M. Corici, T. Magedanz, P. Du, Y. Kiriha, A. Nakao
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引用次数: 10

Abstract

Standardisation, research and development efforts for the fifth generation (5G) of mobile telecommunication networks are well under way. Software Defined Networking (SDN) and Network Function Virtualisation (NFV) are two of the key enabling technologies, considered in these efforts. The need for a flexible, high performant and efficient architecture is well established. Network slicing, which combines SDN and NFV, can contribute to such an architecture. It allows the parallel deployment of differing network stacks on top of any physical infrastructure. SDN's separation of control and data plane components allows for flexible deployments. How can SDN's flexibility be leveraged in a sliced, 5G network infrastructure? There needs to be an efficient way to integrate SDN into 5G networks. In this paper, we posit a way of integration, which allows decoupling the data plane components from any particular control plane. This can improve flexibility, utilisation and extensibility. We envision utilising an SDN switch implementation as the User Plane Function (UPF), and introducing an SDN controller between Session Management Function (SMF) and UPF, to effectively decouple the two. Based on this decoupling, control and data plane components can be deployed in separatelyand new slice orchestration opportunities can be developed. Furthermore, we can leverage deep data plane programmability, to enhance the system in terms of function and flexibility.
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SDN增强切片,深度可编程5G核心
第五代移动通信网络(5G)的标准化和研发工作正在顺利进行。软件定义网络(SDN)和网络功能虚拟化(NFV)是这些努力中考虑的两项关键使能技术。对灵活、高性能和高效的体系结构的需求已经确立。结合了SDN和NFV的网络切片可以为这样的架构做出贡献。它允许在任何物理基础设施之上并行部署不同的网络堆栈。SDN的控制和数据平面组件的分离允许灵活的部署。如何在切片的5G网络基础设施中利用SDN的灵活性?需要有一种有效的方式将SDN融入5G网络。在本文中,我们假设了一种集成方式,它允许将数据平面组件与任何特定的控制平面解耦。这可以提高灵活性、利用率和可扩展性。我们设想利用SDN交换机实现作为用户平面功能(UPF),并在会话管理功能(SMF)和UPF之间引入SDN控制器,以有效地解耦两者。基于这种解耦,控制和数据平面组件可以单独部署,并且可以开发新的切片编排机会。此外,我们可以利用深度数据平面可编程性,以增强系统的功能和灵活性。
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