QUIC-Enabled Framework for Alleviating Transient Congestion in Time-Critical IoT
Authors: 
Haoran Zhao, Bo He, Jingyu Wang, Qi Qi, Haifeng Sun, 
Zirui Zhuang, Jianxin LiaoAuthors Info & Claims
Haoran Zhao, Bo He, Jingyu Wang, Qi Qi, Haifeng Sun, Zirui Zhuang, Jianxin LiaoAuthors Info & ClaimsPages 1578 - 1580
Abstract
The real-time control capability of IoT devices is contingent upon the transmission of packets. However, due to the influence of multiple devices accessing the network, the bandwidth available to IoT devices from access points may decline significantly, which causes a surge in the queuing latency and interrupts the transmission. This phenomenon is referred to as transient congestion. To achieve stable high-quality network service, this paper designs RushWay, a QUIC-enabled framework for alleviating transient congestion. RushWay employs stream multiplexing to compress the original packet into the stream frame, thereby reducing the bandwidth required for transmission. Furthermore, RushWay employs an adaptive decision-making algorithm to assess uplink queue conditions and packet latency requirements, thereby alleviating transient congestion. The simulation results demonstrate that RushWay can improve key performance by 13% to 94%.
References
[1]
Neal Cardwell, Yuchung Cheng, C. Stephen Gunn, Soheil Hassas Yeganeh, and Van Jacobson. 2016. BBR: Congestion-Based Congestion Control: Measuring Bottleneck Bandwidth and Round-Trip Propagation Time. ACM Queue 14, 5 (2016), 20--53.
[2]
Jana Iyengar and Martin Thomson. 2021. QUIC: A UDP-Based Multiplexed and Secure Transport. In IETF RFC 9000.
[3]
Minsung Kim, Davide Venturelli, John Kaewell, and Kyle Jamieson. 2022. Warm-Started Quantum Sphere Decoding via Reverse Annealing for Massive IoT Connectivity. In Proceedings of ACM MobiCom.
[4]
Zili Meng, Yaning Guo, Chen Sun, Bo Wang, Justine Sherry, Hongqiang Harry Liu, and Mingwei Xu. 2022. Achieving Consistent Low Latency for Wireless Real-Time Communications with the Shortest Control Loop. In Proceedings of ACM SIGCOMM.
[5]
Kathleen Nichols and Van Jacobson. 2012. Controlling Queue Delay. Communications of the ACM 55, 7 (2012), 42--50.
Index Terms
- QUIC-Enabled Framework for Alleviating Transient Congestion in Time-Critical IoT
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Published In
December 2024
2476 pages
ISBN:9798400704895
DOI:10.1145/3636534
- Chair:
- Weisong Shi,
- Program Chairs:
- Deepak Ganesan,
- Nicholas Lane
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Publication History
Published: 04 December 2024
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ACM MobiCom '24
Sponsor:
ACM MobiCom '24: 30th Annual International Conference on Mobile Computing and Networking
November 18 - 22, 2024
DC, Washington D.C., USA
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Overall Acceptance Rate 440 of 2,972 submissions, 15%
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