Packet-Based Fronthauling in 5G Networks: Network Slicing-Aware Packetization

Q1 Social Sciences IEEE Communications Standards Magazine Pub Date : 2023-06-01 DOI:10.1109/MCOMSTD.0007.200062

Hyun-Suk Lee, Seokjae Moon, Do-Yup Kim, Jang-Won Lee

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Abstract

Network slicing is one of the most important enablers of an evolved network architecture for 5G networks that can support the challenging quality-of-service (QoS) requirements of future communication services. Network slicing is realized by technologies, such as software-defined networks, network function virtualization, and cloud radio access network (C-RAN) with packet-based fronthaul (P-FH) interfaces. However, it is still challenging to effectively support the diverse QoS requirements of network slices with limited FH link resources. To this end, FH payloads should be packetized in an appropriate way to apply transport differentiation provided in the P-FH interfaces since they are transported in a form of packets. In this article, we first comprehensively investigate the characteristics of the components of the FH payloads. Based on the investigation, we then design a packetization method that enables the P-FH interfaces to address the diverse QoS requirements by effectively applying their transport differentiation to the generated packets. Finally, we discuss open issues on realizing the P-FH interface in practice.

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5G网络中基于分组的前端传输：网络切片感知分组

网络切片是5G网络演进网络架构的最重要推动者之一，该架构可以支持未来通信服务具有挑战性的服务质量（QoS）要求。网络切片是通过软件定义网络、网络功能虚拟化和具有基于分组的前端（P-FH）接口的云无线电接入网络（C-RAN）等技术实现的。然而，在FH链路资源有限的情况下，有效支持网络切片的不同QoS要求仍然具有挑战性。为此，FH有效载荷应以适当的方式进行分组，以应用P-FH接口中提供的传输差异，因为它们是以分组的形式传输的。在本文中，我们首先全面研究了跳频有效载荷的部件特性。在研究的基础上，我们设计了一种分组化方法，通过有效地将P-FH接口的传输差异应用于生成的数据包，使其能够满足不同的QoS要求。最后，我们讨论了在实践中实现P-FH接口的一些悬而未决的问题。

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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