IPv4/IPv6 互联网中网络通信延迟的统计行为特征

IF 1.7 4区 计算机科学 Q3 TELECOMMUNICATIONS Telecommunication Systems Pub Date : 2024-02-28 DOI:10.1007/s11235-024-01111-y
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引用次数: 0

摘要

摘要 对互联网宏观拓扑结构下的时延特性进行研究,为解决互联网设备数据传输的实时性问题提供了参考。随着互联网 IPv6 部署的全面推进,网络结构和路径的变化会产生不同程度的时延。在此背景下,本研究对 IPv4 和 IPv6 网络延迟的行为特征进行了对比分析。我们选取了 CAIDA_Ark 项目中位于不同大洲的四个监测点的有效路径的抽样数据,对 IPv4 和 IPv6 互联网的网络延迟和通信直径进行了统计,发现它们之间的相关性极弱。此外,IPv6 互联网的通信直径略短于 IPv4 互联网。网络延迟呈现双峰或多峰重尾分布。IPv4 和 IPv6 互联网的网络延迟和最大链路延迟密切相关,这表明瓶颈延迟会影响网络延迟和通信直径之间的关系。接下来,我们分析了 IPv4 和 IPv6 互联网的网络延迟与瓶颈延迟之间的关系,发现在 IPv4 互联网的有效路径上,瓶颈延迟对网络延迟的影响比 IPv6 互联网更为显著。将瓶颈延迟两端的 IP 地址映射到自治系统(ASes)后,我们发现 IPv4 互联网有效路径上的瓶颈延迟主要分布在自治系统内,而 IPv6 互联网的瓶颈延迟则分布在自治系统间。最后,我们分析了影响瓶颈延迟的因素,发现长距离范围内的传播延迟是一个重要因素(IPv4 互联网为 4000 千米,IPv6 互联网为 7000 千米)。此外,在 IPv4 互联网中,队列延迟是影响瓶颈延迟的重要因素,而在 IPv6 互联网的数据通信过程中,传播延迟和队列延迟对瓶颈延迟的影响有所减弱。
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Statistical behavioral characteristics of network communication delay in IPv4/IPv6 Internet

Abstract

Studies on the delay characteristics under the Internet macro-topology provides a reference for resolving the real-time performance issue of the data transmission of Internet devices. With the overall advancement of IPv6 Internet deployment, the changes in network structure and paths will generate different degrees of delay. In this context, a comparative analysis of the behavioral characteristics of IPv4 and IPv6 network delay was performed in this study. We selected the sampled data of valid paths located at four monitors on different continents under the CAIDA_Ark project to obtain statistics for the network delay and communication diameter on the IPv4 and IPv6 Internet and found that their correlation was extremely weak. Furthermore, the communication diameter on IPv6 Internet was slightly shorter than that on IPv4 Internet. The network delay exhibited a bimodal or multimodal heavy-tailed distribution. The network delay and maximum link delay for IPv4 and IPv6 Internet were strongly correlated, indicating that the bottleneck delay affects the relationship between the network delay and communication diameter. Next, we analyzed the relationship between network delay and bottleneck delay for IPv4 and IPv6 Internet and found that bottleneck delay has a more significant impact on the network delay on the valid paths for IPv4 Internet than for IPv6 Internet. After mapping the IP addresses at both ends of the bottleneck delay to the Autonomous Systems (ASes), we found that the bottleneck delay on the valid paths for the IPv4 Internet was mostly distributed in the intra-AS, whereas it was in the inter-AS for the IPv6 Internet. Finally, we analyzed the factors affecting bottleneck delay and found that propagation delay in the long-distance range is an important factor (L > 4000 km on IPv4 Internet and L > 7000 km on IPv6 Internet). In addition, for IPv4 Internet, queuing delay is an important factor affecting bottleneck delay, whereas in the process of data communication on the IPv6 Internet, the impact of propagation and queuing delays on the bottleneck delay is weakened.

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来源期刊
Telecommunication Systems
Telecommunication Systems 工程技术-电信学
CiteScore
5.40
自引率
8.00%
发文量
105
审稿时长
6.0 months
期刊介绍: Telecommunication Systems is a journal covering all aspects of modeling, analysis, design and management of telecommunication systems. The journal publishes high quality articles dealing with the use of analytic and quantitative tools for the modeling, analysis, design and management of telecommunication systems covering: Performance Evaluation of Wide Area and Local Networks; Network Interconnection; Wire, wireless, Adhoc, mobile networks; Impact of New Services (economic and organizational impact); Fiberoptics and photonic switching; DSL, ADSL, cable TV and their impact; Design and Analysis Issues in Metropolitan Area Networks; Networking Protocols; Dynamics and Capacity Expansion of Telecommunication Systems; Multimedia Based Systems, Their Design Configuration and Impact; Configuration of Distributed Systems; Pricing for Networking and Telecommunication Services; Performance Analysis of Local Area Networks; Distributed Group Decision Support Systems; Configuring Telecommunication Systems with Reliability and Availability; Cost Benefit Analysis and Economic Impact of Telecommunication Systems; Standardization and Regulatory Issues; Security, Privacy and Encryption in Telecommunication Systems; Cellular, Mobile and Satellite Based Systems.
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