SDN enabled space-terrestrial integrated network architecture of railway system

Yinglei TENG; Xin LI; Jian WANG; Bogen CAI; Mei SONG

doi:10.11959/j.issn.2096-3750.2020.00184

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SDN enabled space-terrestrial integrated network architecture of railway system

Topic:IoT in Intelligent Transportation | 更新时间：2024-06-05

- SDN enabled space-terrestrial integrated network architecture of railway system
- Chinese Journal on Internet of Things Vol. 4, Issue 3, Pages: 30-41(2020)
- 作者机构：
  
  1. 北京邮电大学，北京 100876
  2. 北京交通大学，北京 100044
- 作者简介：
- 基金信息：
- DOI：10.11959/j.issn.2096-3750.2020.00184
  CLC： TN911.22
- Published：30 September 2020，
  
  Published Online：2020-09，
- 稿件说明：
移动端阅览
YINGLEI TENG, XIN LI, JIAN WANG, et al. SDN enabled space-terrestrial integrated network architecture of railway system. [J]. Chinese journal on internet of things, 2020, 4(3): 30-41.
DOI：

YINGLEI TENG, XIN LI, JIAN WANG, et al. SDN enabled space-terrestrial integrated network architecture of railway system. [J]. Chinese journal on internet of things, 2020, 4(3): 30-41. DOI： 10.11959/j.issn.2096-3750.2020.00184.

摘要

针对列车通信网络制式单一、地理环境差、数据安全可靠传输难以得到保证的现状，调研铁路系统各业务的通信需求，提出一种基于软件定义网络（SDN

software defined network）和网络功能虚拟化（NFV

network functions virtualization）的铁路系统空天地融合网络体系架构。通过集中控制器管理底层铁路系统的物理设施，实现应用程序与物理基础设施的解耦，讨论了体系架构的设计细节，并对架构的协议需求、功能需求以及信息流等展开综述，给出空天地融合网络与其他单一制式网络覆盖的性能对比分析，并简要讨论了目前待解决的问题及解决方向。

Abstract

In view of the current situation that it is difficult to guarantee the safe and reliable transmission of data with the poor geographical environment in the single standard train communication network

the communication needs of each business of the railway system were investigated and a space-terrestrial integrated network architecture based on software defined network (SDN) and network functions virtualization (NFV) was proposed.By focusing on the controller to manage the physical facilities

the architecture realized decoupling application and physical infrastructure.The design of the architectural details and the requirements of the agreement for the architecture in the functional requirements and the information flow were discussed.In the end

the performance comparison between the space-terrestrial integrated network and other single-system network coverage was given

problems remaining to be solved and some feasible solutions faced by the space-terrestrial integrated network were briefly discussed.

关键词

软件定义网络网络功能虚拟化网络融合空天地一体化网络

Keywords

software defined network (SDN)network functions virtualization (NFV)network convergencespace-terrestrial integrated network

references

高克俭 . 高速铁路TD-LTE网络规划的研究[D]. 南京:南京邮电大学, 2020.

GAO K J . Research on TD-LTE network planning of high speed railway[D]. Nanjing:Nanjing University of Posts and Telecommunications, 2020.

RISPOLI F, FILIP A, CASTORINA M ,et al. Recent progress in application of GNSS and advanced communications for railway signaling[C]// 2013 23rd International Conference Radioelektronika (RADIOELEKTRONIKA). IEEE, 2013.

ZHOU D, SHI T Y, LYU X ,et al. A research on banded topology control of wireless sensor networks along high-speed railways[C]// 2015 34th Chinese Control Conference (CCC). IEEE, 2015.

施政 . 异构网络中无线资源管理技术的研究[D]. 南京:南京邮电大学, 2013.

SHI Z . Research on wireless resource management technology in heterogeneous network[D]. Nanjing:Nanjing University of Posts and Telecommunications, 2013.

张兵 . 软件定义物联网架构下异构网络融合方法研究[D]. 乌鲁木齐:新疆大学, 2019.

ZHANG B . Research on heterogeneous network convergence method based on software defined Internet of things[D]. Urumqi:Xinjiang University, 2019.

翟立君, 汪春霆 . 天地一体化网络和空中接口技术研究[J]. 无线电通信技术, 2015,41(3): 1-5.

ZHAI L J, WANG C T . Research on space and terrestrial integrated network and air interface[J]. Radio Communications Technology, 2015,41(3): 1-5.

ERTEKIN E, CHRISTOU C A . Internet protocol header compression,robust header compression,and their applicability in the global information grid[J]. IEEE Communications Magazine, 2004,42(11): 106-116.

PULLIAM J, ZAMBRE Y, KARMARKAR A ,et al. TSAT network architecture[C]// 2008 IEEE Military Communications Conference (MILCOM). IEEE, 2008.

VANELLI-CORALLI A, CORAZZA G E, LUGLIO M ,et al. The ISICOM architecture[C]// 2009 International Workshop on Satellite and Space Communications. IEEE, 2009.

BHASIN K B, PUTT C, HAYDEN J ,et al. Architecting the communication and navigation networks for NASA’s space exploration systems[C]// IEEE International Conference on System of Systems Engineering. IEEE, 2007.

汪宇 . 空间信息网络资源管理架构及方法研究[D]. 西安:西安电子科技大学, 2019.

WANG Y . Research on architecture and method of spatial information network resource management[D]. Xi’an:Xidian University, 2019.

3GPP,Technical Specification Group Radio Access Network.Study on scenarios and requirements for next generation access technologies:TR 38.913[S]. 2018.

汪春霆, 李宁, 翟立君 ,等. 卫星通信与地面5G的融合初探(一)[J]. 卫星与网络, 2018(9): 14-21.

WANG C T, LI N, ZHAI L J ,et al. Discussion on the integration of satellite communication and ground 5G(1)[J]. Satellite ＆ Network, 2018(9): 14-21.

裴郁杉, 张忠皓, 王婷婷 . 空天地一体化通信网络发展愿景与挑战[J]. 邮电设计技术, 2020(4): 15-20.

PEI Y S, ZHANG Z H, WANG T T ,et al. Vision and challenge of air space integrated communication network[J]. Designing Techniques of Posts and Telecommunications, 2020(4): 15-20.

MOSAHEBFARD M, VARDAKAS J, RAMANTAS K ,et al. SDN/NFV-based network resource management for converged optical-wireless network architectures[C]// 2019 21st International Conference on Transparent Optical Networks (ICTON). IEEE, 2019.

GUDIPATI A, PERRY D, LI L E ,et al. SoftRAN:software defined radio access network[C]// 2nd ACM SIGCOMM Workshop on Hot Topics in Software Defined Networking-HotSDN’13. ACM, 2013.

LI T X, ZHOU H C, LUO H B ,et al. SERvICE:a software defined framework for integrated space-terrestrial satellite communication[J]. IEEE Transactions on Mobile Computing, 2018,17(3): 703-716.

SHI Y P, CAO Y R, LIU J J ,et al. A cross-domain SDN architecture for multi-layered space-terrestrial integrated networks[J]. IEEE Network, 2019,33(1): 29-35.

CHIEN W C, LAI C F, HOSSAIN M S ,et al. Heterogeneous space and terrestrial integrated networks for IoT:architecture and challenges[J]. IEEE Network, 2019,33(1): 15-21.

SHARMA P K, SINGH S, JEONG Y S ,et al. DistBlockNet:a distributed blockchains-based secure SDN architecture for IoT networks[J]. IEEE Communications Magazine, 2017,55(9): 78-85.

SUN J, LIU F, AHMED M ,et al. A unified framework for software defined sensing,transmission and computing[J]. IEEE Access, 2019,7: 48923-48934.

蒋志勇, 左自辉, 殷亚勋 ,等. 铁路下一代移动通信系统业务需求分析[J]. 铁道通信信号, 2013,49(z1): 1-4.

JIANG Z Y, ZUO Z H, YIN Y X ,et al. Service requirement analysis of railway next generation mobile communication system[J]. Railway Signalling ＆ Communication, 2013,49(z1): 1-4.

IANO Y, ABEL D, MORETTI A ,et al. What will 5G be? trends for nanotechnology,video systems,networks management,radio frequency,spectrum management,and regulation in Brazil[C]// Brazilian Technology Symposium. 2015.

龚向阳, 王文东 . 一种面向多样化网络业务融合的SDN网络架构[J]. 中兴通讯技术, 2013,19(5): 16-21.

GONG X Y, WANG W D . SDN infrastructure for converging of diverse network services[J]. ZTE Technology Journal, 2013,19(5): 16-21.

李明江 . SNMP简单网络管理协议[M]. 北京: 电子工业出版社, 2007.

LI M J . SNMP simple network management protocol[M]. Beijing: Publishing House of Electronics IndustryPress, 2007.

梁亮, 芮兰兰 . 通用网络管理机制中接口协议技术的应用分析[J]. 电信工程技术与标准化, 2009,22(12): 37-40.

LIANG L, RUI L L . Analysis of interface technologies in generic network management mechanism application[J]. Telecom Engineering Technics and Standardization, 2009,22(12): 37-40.

张建敏, 谢伟良, 杨峰义 ,等. 移动边缘计算技术及其本地分流方案[J]. 电信科学, 2016,32(7): 132-139.

ZHANG J M, XIE W L, YANG F Y ,et al. Mobile edge computing and application in traffic offloading[J]. Telecommunications Science, 2016,32(7): 132-139.

张寒, 黄祥岳, 孟祥君 ,等. 基于SDN/NFV的天地一体化网络架构研究[J]. 军事通信技术, 2017(2): 35-40.

ZHANG H, HUANG X Y, MENG X J ,et al. Research on SDN/NFV based integrated network architecture[J]. Journal of Military Communications Technology, 2017(2): 35-40.

XU H, CHANG Y Y, SUN T X ,et al. Modeling and analysis of uplink-downlink relationship in heterogeneous cellular network[C]// 2014 IEEE 25th Annual International Symposium on Personal,Indoor,and Mobile Radio Communication (PIMRC). IEEE, 2015.

HU Y R, LI V O K . Satellite-based Internet:a tutorial[J]. IEEE Communications Magazine, 2001,39(3): 154-162.

方小川 . 面向5G移动通信的天线技术研究及设计[D]. 成都:电子科技大学, 2018.

FANG X C . Research and design of antenna technology for 5G mobile communication[D]. Chengdu:University of Electronic Science and Technology of China, 2018.

史飞 . 异构无线网络中低时延切换的研究[D]. 大连:大连理工大学, 2009.

SHI F . Research on low delay handoff in heterogeneous wireless networks[D]. Dalian:Dalian University of Technology, 2009.

王达 . Wi-Fi是个啥[J]. 计算机与网络, 2015,41(22): 38-39.

WANG D . What is Wi-Fi[J]. Computer ＆ Network, 2015,41(22): 38-39.

赵泽宇 . GSM-R与LTE-R网络对比[J]. 铁道通信信号, 2018,54(8): 84-87.

ZHAO Z Y . Comparison between GSM-R and LTE-R networks[J]. Railway Communication Signal Specialty, 2018,54(8): 84-87.

BI Y G, HAN G J, XU S ,et al. Software defined space-terrestrial integrated networks:architecture,challenges,and solutions[J]. IEEE Network, 2019,33(1): 22-28.

ZHU J, ZOU Y L, WANG G P ,et al. On secrecy performance of antenna-selection-aided MIMO systems against eavesdropping[J]. IEEE Transactions on Vehicular Technology, 2016,65(1): 214-225.

HE D J, CHEN C, CHAN S ,et al. Secure and efficient handover authentication based on bilinear pairing functions[J]. IEEE Transactions on Wireless Communications, 2012,11(1): 48-53.

XIANG Q, WANG X T, ZHANG J J ,et al. Unicorn:unified resource orchestration for multi-domain,GEO-distributed data analytics[J]. Future Generation Computer Systems, 2019

李林哲, 周佩雷, 程鹏 ,等. 边缘计算的架构、挑战与应用[J]. 大数据, 2019,5(2): 3-16.

LI L Z, ZHOU P L, CHENG P ,et al. Architecture,challenges and applications of edge computing[J]. Big Data Research, 2019,5(2): 3-16.

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