用于5G高级中接入业务指导切换和拆分的多路QUIC

Q1 Social Sciences IEEE Communications Standards Magazine Pub Date : 2023-03-01 DOI:10.1109/MCOMSTD.0006.2200056

A. Salkintzis, M. Kühlewind, S. Rommer, Rainer Liebhart

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引用次数: 1

摘要

配备多个无线接口(多主)的现代移动设备的激增，以及对高吞吐量和超可靠连接的需求不断增长，促使3GPP指定了一种实现多接入通信的解决方案，称为接入流量转向、交换和分割(ATSSS)。基于该解决方案，移动设备可以同时使用不同的接入网(如WiFi和5G- nr)与5G核心网交换数据流量。因此，数据流可以享受聚合带宽，还可以减少延迟和提高可靠性。在本文中，我们简要介绍了ATSSS的关键概念和功能，并重点介绍了为5G Advanced(即3GPP Rel-18)考虑的ATSSS增强功能。特别地，我们提出了一种新的基于QUIC协议及其多路径扩展的转向功能。我们讨论了这种转向功能的动机，它的特性和用户平面操作，并解释了如何将其应用于HTTP上的代理UDP流量。

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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Multipath QUIC for Access Traffic Steering Switching and Splitting in 5G Advanced

The proliferation of modern mobile devices equipped with several wireless interfaces (multi-homed), along with the increasing demand for high-throughput and ultra-reliable connectivity, motivated 3GPP to specify a solution that enables multi-access communication, called access traffic steering, switching, and splitting (ATSSS). Based on this solution, a mobile device can exchange data traffic with the 5G core network by simultaneously using different access networks (e.g., WiFi and 5G-NR). Consequently, data flows can enjoy aggregated bandwidth and also reduced delay and increased reliability. In this article, we briefly present the key concepts and functionality of ATSSS, and we focus on the ATSSS enhancements considered for 5G Advanced (i.e., in 3GPP Rel-18). In particular, we present a new steering functionality that is based on the QUIC protocol and its multipath extensions. We discuss the motivation for this steering functionality, its features and user-plane operation, and we explain how it can be applied to proxy UDP traffic over HTTP.

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