基于 5G 通信技术的多路径数据传输系统

Q3 Decision Sciences
Jun Lu;Guowei Huang;Dan Hu;Wenke Kuai
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引用次数: 0

摘要

由于目前5G(第五代移动通信技术)网络存在覆盖不连续、覆盖性能差、上行速率不足等问题,5G网络的实时传输性能受到很大影响,无法满足日益增长的高速通信和基于物联网的应用需求。本文旨在通过改进算法来提高 5G 通信技术的传输效果。通过分析现有5G带宽估算算法存在的问题,本文提出了一种基于Westwood耦合的自适应带宽估算算法,并逐点阐述了该算法所涉及的算法思想。此外,本文利用自适应带宽估计算法更新了快速重传阶段的慢启动阈值,使得路径传输的拥塞窗口大小更加合理。仿真结果表明,本文提出的拥塞控制算法在一定程度上提高了链路带宽估计的准确性,改善了链路拥塞状况,提高了多径传输链路的吞吐量。本文可应用于多径数据传输中的算法,进一步提高数据处理效率和处理速度。因此,本文的改进方法可用于 5G 通信的实践中,进一步提高 5G 通信的效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multi-Path Data Transmission System Based on 5G Communication Technology
Due to the current problems of 5G(5th Generation Mobile Communication Technology) networks such as discontinuous coverage, poor coverage performance, and insufficient uplink rate, the real-time transmission performance of 5G networks has been greatly affected, and cannot meet the growing needs of high-speed communication and applications based on the Internet of Things. This paper aims to improve the transmission effect of 5G communication technology by improving the algorithm. By analyzing the problems of existing 5G bandwidth estimation algorithm, this paper proposes a Westwood-based coupling adaptive bandwidth estimation algorithm, and describes the algorithm ideas involved in the algorithm point-by-point. Moreover, this paper uses adaptive bandwidth estimation algorithm to update the slow start threshold in the fast retransmission phase, which makes the congestion window size of path transmission more reasonable. Simulation results show that the congestion control algorithm proposed in this paper improves the accuracy of link bandwidth estimation to a certain extent, improves the link congestion situation and improves the throughput of multipath transmission links. This article can be applied to the algorithm in multipath data transmission to further improve data processing efficiency and processing speed. Therefore, the improved method in this paper can be used in the practice of 5G communication to further improve the efficiency of 5G communication.
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来源期刊
Journal of ICT Standardization
Journal of ICT Standardization Computer Science-Information Systems
CiteScore
2.20
自引率
0.00%
发文量
18
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