基于QUIC协议的下一代通信网络动态带宽控制与低延迟优化研究  

Research on dynamic bandwidth control and low latency optimization of next generation communication networks based on QUIC protocol

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作  者:周建人[1] ZHOU Jianren(The 54th Research Institute of CETC,Shijiazhuang 050081,China)

机构地区:[1]中国电子科技集团公司第五十四研究所,河北石家庄050081

出  处:《无线互联科技》2025年第6期39-42,共4页Wireless Internet Science and Technology

摘  要:随着5G及未来通信网络对高带宽与低延迟的需求不断增加,传统传输协议在动态带宽控制和低延迟优化方面的不足逐渐显现。QUIC协议凭借其低延迟、高带宽利用率等特点,在高效网络传输中表现出独特优势。文章提出一种基于QUIC协议的动态带宽控制与低延迟优化方案,结合多路径传输、拥塞控制及自适应带宽分配技术,能够有效提升带宽利用率,减少延迟波动。实验结果表明,该方案在不同网络条件下,尤其是在高负载和高丢包环境下,显著提高了网络性能,适用于高实时性、大流量的通信场景。该研究为下一代通信网络的带宽与延迟优化提供了新的技术思路,具有重要的应用前景。With the increasing demand for high bandwidth and low latency in 5G and future communication networks,the limitations of traditional transmission protocols in dynamic bandwidth control and latency optimization have become more evident.The QUIC protocol,with its low latency and high bandwidth utilization,demonstrates unique advantages in efficient network transmission.The article proposes a dynamic bandwidth control and low-latency optimization scheme based on the QUIC protocol,combining multipath transmission,congestion control,and adaptive bandwidth allocation techniques,which effectively improve bandwidth utilization and reduce latency fluctuations.Experimental results show that the proposed scheme significantly enhances network performance under various network conditions,especially in high-load and high-packet-loss environments,making it suitable for high-real-time and large-scale communication scenarios.The research provides new technical insights for bandwidth and latency optimization in next-generation communication networks,with promising application prospects.

关 键 词:QUIC协议 动态带宽控制 低延迟优化 多路径传输 拥塞控制 

分 类 号:TN914[电子电信—通信与信息系统]

 

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