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IF 3 3区计算机科学 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE

IEEE/ACM Transactions on Networking Pub Date : 2024-10-01 DOI:10.1109/TNET.2024.3453759

François Michel;Olivier Bonaventure

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引用次数: 0

摘要

越来越多的互联网应用需要低延迟。遗憾的是，这些应用大多无法使用 QUIC 协议的丰富功能，因为该协议仅使用重传来应对数据包丢失。我们提出、实施并评估了 QUIRL，它是对 QUIC 丢失恢复机制的重新审视。QUIRL 仅在应用的延迟要求需要时才依赖前向擦除校正（FEC），否则使用传统的重传。我们实现了 QUIRL，并评估了其在实时视频和 HTTP/3 中的性能。与之前在 QUIC 中添加 FEC 的工作相比，QUIRL 是第一个在真实有损网络上对流行应用进行评估并获得显著性能改进的产品。我们的评估结果表明，在视频方面，QUIRL 在满足严格的延迟要求的同时提高了视频质量。对于 HTTP/3 传输，QUIRL 在发生数据包丢失时有效地减少了尾部延迟，而在没有丢失时不会造成损害。我们在各种带宽、延迟和丢失情况下进行了仿真，证实了这些结果。我们发布 QUIRL 实现，是为了鼓励其他研究人员和业界更详细地探索在 QUIC 中使用 FEC。

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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QUIRL: Flexible QUIC Loss Recovery for Low Latency Applications

A growing number of Internet applications require low latency. Unfortunately, most of these applications cannot use the rich features of the QUIC protocol since it only uses retransmissions to cope with packet losses. We propose, implement and evaluate QUIRL, a revisit of the QUIC loss recovery mechanism. QUIRL relies on Forward Erasure Correction (FEC) only if it is needed by the application’s latency requirements and uses classical retransmissions otherwise. We implement QUIRL and evaluate its performance for real-time video and HTTP/3. Compared to previous works adding FEC to QUIC, QUIRL is the first to be evaluated with and obtain significant performance improvements for popular applications over real lossy networks. Our evaluation shows that for video QUIRL improves the video quality while meeting strict delay requirements. For HTTP/3 transfers, QUIRL efficiently reduces the tail latency when packet losses occur without causing harm when there are no losses. We confirm these results using emulation over a wide ranges of bandwidth, delays and loss scenarios. We release our QUIRL implementation to encourage other researchers and industry to explore in more details the use of FEC in QUIC.

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来源期刊

IEEE/ACM Transactions on Networking 工程技术-电信学

CiteScore

8.20

自引率

5.40%

发文量

246

审稿时长

4-8 weeks

期刊介绍： The IEEE/ACM Transactions on Networking’s high-level objective is to publish high-quality, original research results derived from theoretical or experimental exploration of the area of communication/computer networking, covering all sorts of information transport networks over all sorts of physical layer technologies, both wireline (all kinds of guided media: e.g., copper, optical) and wireless (e.g., radio-frequency, acoustic (e.g., underwater), infra-red), or hybrids of these. The journal welcomes applied contributions reporting on novel experiences and experiments with actual systems.