基于OMNeT++的大规模确定性网络仿真实践

高陈强; 朱向阳; 喻敬海

doi:10.11959/j.issn.1000-0801.2023239

您当前的位置：

首页 >

文章列表页 >

基于OMNeT++的大规模确定性网络仿真实践

专题：确定性网络 | 更新时间：2024-06-05

- 基于OMNeT++的大规模确定性网络仿真实践
- Large-scale OMNeT++-based deterministic networking simulation practice
- 电信科学 2023年39卷第11期页码：59-68
- 作者机构：
- 作者简介：
  
  [ "高陈强（1990- ），男，中兴通讯股份有限公司工程师，主要研究方向为确定性业务承载技术、软件定义网络和网络演算等" ]
  [ "朱向阳（1987- ），男，中兴通讯股份有限公司工程师，主要研究方向为确定性业务承载技术和软件定义网络等" ]
  [ "喻敬海（1970- ），男，现就职于中兴通讯股份有限公司，主要研究方向为位索引显示复制技术、确定性业务承载技术、以太网、IP路由、云计算数据中心网络和软件定义网络等" ]
- 基金信息：
- DOI：10.11959/j.issn.1000-0801.2023239
  中图分类号： TN915.41
- 网络出版日期：2023-11，
  
  纸质出版日期：2023-11-20
- 稿件说明：
移动端阅览
高陈强, 朱向阳, 喻敬海. 基于OMNeT++的大规模确定性网络仿真实践[J]. 电信科学, 2023,39(11):59-68.

Chenqiang GAO, Xiangyang ZHU, Jinghai YU. Large-scale OMNeT++-based deterministic networking simulation practice[J]. Telecommunications science, 2023, 39(11): 59-68.
高陈强, 朱向阳, 喻敬海. 基于OMNeT++的大规模确定性网络仿真实践[J]. 电信科学, 2023,39(11):59-68. DOI： 10.11959/j.issn.1000-0801.2023239.

Chenqiang GAO, Xiangyang ZHU, Jinghai YU. Large-scale OMNeT++-based deterministic networking simulation practice[J]. Telecommunications science, 2023, 39(11): 59-68. DOI： 10.11959/j.issn.1000-0801.2023239.

摘要

时间敏感网络（TSN）和确定性网络（DetNet）是确定性网络整体解决方案的重要组成部分，目前产业界还缺少这两种技术在大规模联合组网方面的研究。在 OMNeT++仿真平台基于时隙调度实现了 TSN 和DetNet 联合组网的确定性转发，并打通了控制器和仿真系统的通道，实现了转控协同的确定性仿真网络。重点介绍了对于仿真系统的改造，以及基于此的大规模跨域场景下确定性业务的端到端时延和抖动性能研究。结果表明，在大规模跨域场景下，时隙调度的机制可以提供端到端的确定性业务保障。

Abstract

TSN and DetNet are major components of the deterministic networking solution

detailed research has been conducted by industry and academia.However

the study seldom considers the joint of these two technologies under large-scale networks.To facilitate the analysis of the joint networks

TSN and DetNet specifific extensions to the popular OMNeT++/INET framework for network simulations was presented

in particular

the time slot scheduling

the TSN node/host/interface and DetNet node/host/interface

the framework for collaboration between the controller and the simulation system.A proof of concept implementation and exemplary evaluation of the joint of these two technologies under large-scale networks was presented.The results show that in large-scale cross-domain scenarios

the time slot scheduling mechanism can provide end-to-end deterministic service guarantee.

关键词

Keywords

references

网络通信与安全紫金山实验室 . 确定性网络技术体系白皮书 [R ] . 2021 .

Purple Mountain Laboratories . Deterministic network technologys System white paper [R ] . 2021 .

刘鹏 , 杜宗鹏 , 李永竞 , 等 . 端到端确定性网络架构和关键技术 [J ] . 电信科学 , 2021 , 37 ( 9 ): 64 - 73 .

LIU P , DU Z P , LI Y J , et al . End-to-end deterministic networking architecture and key technologies [J ] . Telecommunications Science , 2021 , 37 ( 9 ): 64 - 73 .

莫益军 , 杨子涵 , 刘辉宇 , 等 . 面向大规模确定性网络的全局循环排队与转发机制 [J ] . 电信科学 , 2021 , 37 ( 10 ): 55 - 65 .

MO Y J , YANG Z H , LIU H Y , et al . Global cyclic queuing and forwarding mechanism for large-scale deterministic networks [J ] . Telecommunications Science , 2021 , 37 ( 10 ): 55 - 65 .

CRACIUNAS S S , OLIVER R S , CHMELÍK M , et al . Scheduling real-time communication in IEEE 802.1 Qbv time sensitive networks [C ] // Proceedings of the 24th International Conference on Real-Time Networks and Systems . New York:ACM Press , 2016 : 183 - 192 .

PAHLEVAN M , OBERMAISSER R . Genetic algorithm for scheduling time-triggered traffic in time-sensitive networks [C ] // Proceedings of 2018 IEEE 23rd International Conference on Emerging Technologies and Factory Automation (ETFA) . Piscataway:IEEE Press , 2018 : 337 - 344 .

MAHFOUZI R , AMINIFAR A , SAMII S , et al . Stability-aware integrated routing and scheduling for control applications in Ethernet networks [C ] // Proceedings of 2018 Design,Automation＆ Test in Europe Conference ＆ Exhibition (DATE) . Piscataway:IEEE Press , 2018 : 682 - 687 .

NAYAK N G , DÜRR F , ROTHERMEL K . Time-sensitive software-defined network (TSSDN) for real-time applications [C ] // Proceedings of the 24th International Conference on Real-Time Networks and Systems . New York:ACM Press , 2016 : 193 - 202 .

工业互联网产业联盟 . 工业互联网网络连接白皮书 [R ] . 2018 .

Alliance of Industrial Internet . Industrial Internet network connection white paper [R ] . 2018 .

黄韬 , 汪硕 , 黄玉栋 , 等 . 确定性网络研究综述 [J ] . 通信学报 , 2019 , 40 ( 6 ): 160 - 176 .

HUANG T , WANG S , HUANG Y D , et al . Survey of the deterministic network [J ] . Journal on Communications , 2019 , 40 ( 6 ): 160 - 176 .

蔡敏捷 , 李波 . OMNET++与H.264视频编解码器的联合仿真研究 [J ] . 计算机科学 , 2011 , 38 ( 1 ): 136 - 139 .

CAI M J , LI B . Research on hybrid simulation of OMNET++and H.264 codec [J ] . Computer Science , 2011 , 38 ( 1 ): 136 - 139 .

VARGA A . OMNET++ discrete event simulation system version 5.1 simulation manual [EB ] . 2003 .

JIANG J H , LI Y T , HONG S H , et al . A time-sensitive networking (TSN) simulation model based on OMNET [C ] // Proceedings of 2018 IEEE International Conference on Mechatronics and Automation (ICMA) . Piscataway:IEEE Press , 2018 : 643 - 648 .

LE C J , QIAO D H . Evaluation of real-time Ethernet with time synchronization and time-aware shaper using OMNeT [C ] // Proceedings of 2019 IEEE 2nd International Conference on Electronics Technology (ICET) . Piscataway:IEEE Press , 2019 : 70 - 73 .

FANG B W , LI Q , GONG Z J , et al . Simulative assessments of credit-based shaping and asynchronous traffic shaping in time-sensitive networking [C ] // Proceedings of 2020 12th International Conference on Advanced Infocomm Technology (ICAIT) . Piscataway:IEEE Press , 2021 : 111 - 118 .

强鹂 , 刘冰洋 , 于德雷 , 等 . 大规模确定性网络转发技术 [J ] . 电信科学 , 2019 , 35 ( 9 ): 12 - 19 .

QIANG L , LIU B Y , YU D L , et al . Large-scale deterministic network forwarding technology [J ] . Telecommunications Science , 2019 , 35 ( 9 ): 12 - 19 .

IEEE . IEEE standard for local and metropolitan area networks stream reservation protocol (SRP) enhancements and performance improvements:802.1Qcc [S ] . 2018 .

浏览量

109

下载量

CSCD

文章被引用时，请邮件提醒。

提交

工具集

关联资源

暂无数据