天空地融合网络架构与传输优化技术

黄思奇; 曾德泽; 李跃鹏; 张梁钰; 高丰

doi:10.11959/j.issn.2096-8930.2023020

您当前的位置：

首页 >

文章列表页 >

天空地融合网络架构与传输优化技术

研究 | 更新时间：2024-06-03

- 天空地融合网络架构与传输优化技术
- Space-Air-Ground Integrated Network Architecture and Transmission Optimization Technology
- 天地一体化信息网络 2023年4卷第2期页码：62-70
- 作者机构：
  
  1. 中国地质大学（武汉）计算机学院，湖北武汉430074
  2. 之江实验室网络物理社会系统研究中心，浙江杭州 311121
- 作者简介：
  
  [ "黄思奇（1999- ），男，中国地质大学（武汉）硕士生，主要研究方向为边缘计算、云原生技术等" ]
  [ "曾德泽（1984- ），男，中国地质大学（武汉）教授、博士生导师，主要研究方向为边缘计算、未来网络技术、物联网等" ]
  [ "李跃鹏（1994- ），男，中国地质大学（武汉）博士生，主要研究方向为边缘计算、任务调度、可信执行环境等" ]
  [ "张梁钰（1999- ），男，中国地质大学（武汉）硕士生，主要研究方向为边缘计算、云原生技术等" ]
  [ "高丰（1974- ），男，之江实验室研究员，主要研究方法为边缘计算、云计算、泛在操作系统等" ]
- 基金信息：
- DOI：10.11959/j.issn.2096-8930.2023020
  中图分类号： TN92
- 网络出版日期：2023-06，
  
  纸质出版日期：2023-06-20
- 稿件说明：
移动端阅览
黄思奇, 曾德泽, 李跃鹏, 等. 天空地融合网络架构与传输优化技术[J]. 天地一体化信息网络, 2023,4(2):62-70.

Siqi HUANG, Deze ZENG, Yuepeng LI, et al. Space-Air-Ground Integrated Network Architecture and Transmission Optimization Technology[J]. Space-integrated-ground information networks, 2023, 4(2): 62-70.
黄思奇, 曾德泽, 李跃鹏, 等. 天空地融合网络架构与传输优化技术[J]. 天地一体化信息网络, 2023,4(2):62-70. DOI： 10.11959/j.issn.2096-8930.2023020.

Siqi HUANG, Deze ZENG, Yuepeng LI, et al. Space-Air-Ground Integrated Network Architecture and Transmission Optimization Technology[J]. Space-integrated-ground information networks, 2023, 4(2): 62-70. DOI： 10.11959/j.issn.2096-8930.2023020.

摘要

随着应用需求的不断扩大，如何在天空地一体化的异构组网环境下提供高效的组网服务成为新的难题。通过对未来天空地一体化网络的应用场景和技术需求分析，提出一种基于软件定义网络的天空地融合网络架构，以满足快速响应、协同处理等要求，同时简要阐述其主要组成部分和传输优化技术。总结基于软件定义的天空地融合网络架构的发展趋势与挑战，并进行展望，为未来天空地一体化网络的发展提供参考。

Abstract

With the continuous expansion of application requirements

how to provide efficient networking services in a heterogeneous networking environment integrating space

space and ground have become a new problem.Through the analysis of the application scenarios and technical requirements of the future space-air-ground integrated network

a space-air-ground integrated network architecture based on a software-defined network was proposed to met the requirements of rapid response and collaborative processing.At the same time

it briefly expounded on its main components and transmission optimization technology.Then

the development trends and challenges of the software-defined space-air-ground integrated network architecture were summarized and prospected

which provided a reference for the future development of an space-air-ground integrated network.

关键词

Keywords

references

DAI C Q , LIAO G Y , CHEN Q B . Service-oriented routing with Markov space-time graph in low earth orbit satellite networks [J ] . Transactions on Emerging Telecommunications Technologies , 2020 , 32 ( 7 ): e4072 .

JIANG F , ZHANG Q Y , YANG Z H , et al . A space–time graph based multipath routing in disruption-tolerant earth-observing satellite networks [J ] . IEEE Transactions on Aerospace and Electronic Systems , 2019 , 55 ( 5 ): 2592 - 2603 .

李贺武 , 吴茜 , 徐恪 , 等 . 天地一体化网络研究进展与趋势 [J ] . 科技导报 , 2016 , 34 ( 14 ): 95 - 106 .

LI H W , WU (Q /X) , XU K , et al . Progress and tendency of space and earth integrated network [J ] . Science ＆ Technology Review , 2016 , 34 ( 14 ): 95 - 106 .

吴巍 . 天地一体化信息网络发展综述 [J ] . 天地一体化信息网络 , 2020 , 1 ( 1 ): 1 - 16 .

WU W . Survey on the development of space-integrated-ground information network [J ] . Space-Integrated-Ground Information Networks , 2020 , 1 ( 1 ): 1 - 16 .

GOPAL R , BENAMMAR N . Framework for unifying 5G and next generation satellite communications [J ] . IEEE Network , 2018 , 32 ( 5 ): 16 - 24 .

杨元喜 , 许扬胤 , 李金龙 , 等 . 北斗三号系统进展及性能预测:试验验证数据分析 [J ] . 中国科学(地球科学) , 2018 , 48 ( 5 ): 584 - 594 .

YANG Y X , XU Y Y , LI J L , et al . Progress and performance evaluation of BeiDou global navigation satellite system:data analysis based on BDS-3 demonstration system [J ] . Scientia Sinica (Terrae) , 2018 , 48 ( 5 ): 584 - 594 .

尹志豪 , 王广兴 , 胡志刚 , 等 . 北斗三号观测数据质量分析 [J ] . 测绘科学 , 2020 , 45 ( 6 ): 37 - 45 .

YIN Z H , WANG G X , HU Z G , et al . Data quality analysis of BDS-3 observables [J ] . Science of Surveying and Mapping , 2020 , 45 ( 6 ): 37 - 45 .

齐小刚 , 马久龙 , 刘立芳 . 基于拓扑控制的卫星网络路由优化 [J ] . 通信学报 , 2018 , 39 ( 2 ): 11 - 20 .

QI X G , MA J L , LIU L F . Routing optimization based on topology control in satellite network [J ] . Journal on Communications , 2018 , 39 ( 2 ): 11 - 20 .

孙伟超 , 梁俊 , 肖楠 , 等 . 具有高效确认机制的双层卫星网络多径路由协议 [J ] . 计算机应用研究 , 2020 , 37 ( 4 ): 1183 - 1187 .

SUN W C , LIANG J , XIAO N , et al . Multipath routing protocol for two-layered satellite networks with efficient acknowledgement mechanism [J ] . Application Research of Computers , 2020 , 37 ( 4 ): 1183 - 1187 .

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 .

吴晓文 , 焦侦丰 , 凌翔 . 6G 中的卫星通信高效天基计算技术 [J ] . 移动通信 , 2021 , 45 ( 4 ): 50 - 53 .

WU X W , JIAO Z F , LING X . High-efficiency space-based computing for satellite communications in 6G [J ] . Mobile Communications , 2021 , 45 ( 4 ): 50 - 53 .

吕智勇 . 6G 网络中的卫星通信 [J ] . 数字通信世界 , 2020 ( 1 ): 27 - 28 .

LYU Z Y . Satellite communication in 6G network [J ] . Digital Communication World , 2020 ( 1 ): 27 - 28 .

WANG R H , HORAN S . Protocol testing of SCPS-TP over NASA’s ACTS asymmetric links [J ] . IEEE Transactions on Aerospace and Electronic Systems , 2009 , 45 ( 2 ): 790 - 798 .

SCOTT K , TORGERSON L . SCPS-TP:a satellite-enhanced TCP [J ] . 2004 .

LANGLEY A , RIDDOCH A , WILK A , et al . The QUIC transport protocol:design and Internet-scale deployment [C ] // Proceedings of the Conference of the ACM Special Interest Group on Data Communication . New York:ACM , 2017 : 183 - 196 .

VIERNICKEL T , FROEMMGEN A , RIZK A , et al . Multipath QUIC:a deployable multipath transport protocol [C ] // Proceedings of 2018 IEEE International Conference on Communications (ICC) . Piscataway:IEEE Press , 2018 : 1 - 7 .

VU V A , WALKER B . On the latency of multipath-QUIC in real-time applications [C ] // Proceedings of 2020 16th International Conference on Wireless and Mobile Computing,Networking and Communications (WiMob) . Piscataway:IEEE Press , 2020 : 1 - 7 .

殷齐鹏 . 面向异构混合网络的自适应拥塞控制算法研究与实现 [D ] . 长沙:国防科学技术大学 , 2011 .

YIN Q P . Research and implementation of adaptive congestion control algorithm for heterogeneous mixed networks [D ] . Changsha:National University of Defense Technology , 2011 .

SPIRIDONOV V V . Inmarsat systems and services [C ] // Proceedings of International Conference on Satellite Communications.ICSC'94 . Piscataway:IEEE Press , 2002 : 45 - 52 .

谢永锋 , 赵吉英 , 胡俊 . TCP加速技术在Inmarsat卫星通信系统的应用研究 [J ] . 通信技术 , 2020 , 53 ( 12 ): 2922 - 2926 .

XIE Y F , ZHAO J Y , HU J . Application of TCP acceleration technology in inmarsat system [J ] . Communications Technology , 2020 , 53 ( 12 ): 2922 - 2926 .

陈庭平 . 卫星—地面混合网络 TCP 拥塞控制机制优化研究 [D ] . 长沙:国防科学技术大学 , 2015 .

CHEN T P . Research on optimization of TCP congestion control mechanism in satellite-ground hybrid network [D ] . Changsha:National University of Defense Technology , 2015 .

宋振健 , 王春梅 , 张明 . 卫星通信网络中SCPS-TP分析与研究 [J ] . 电子设计工程 , 2018 , 26 ( 4 ): 56 - 59 .

SONG Z J , WANG C M , ZHANG M . Analysis and research of SCPS-TP in satellite communication network [J ] . Electronic Design Engineering , 2018 , 26 ( 4 ): 56 - 59 .

ZHANG H , WANG T Q , TU Y , et al . How Quick Is QUIC in Satellite Networks [C ] // International Conference in Communications,Signal Processing,and Systems . Singapore:Springer , 2019 : 387 - 394 .

ABDELSALAM A , LUGLIO M , QUADRINI M , et al . QUIC-proxy based architecture for satellite communication to enhance a 5G scenario [C ] // Proceedings of 2019 International Symposium on Networks,Computers and Communications (ISNCC) . Piscataway:IEEE Press , 2019 : 1 - 6 .

DE CONINCK Q , BONAVENTURE O . Multipath QUIC:design and evaluation [C ] // Proceedings of the 13th International Conference on Emerging Networking EXperiments and Technologies . New York:ACM , 2017 : 160 - 166 .

谢琳 . 面向集群架构 QUIC 协议的优化研究 [D ] . 武汉:华中科技大学 , 2021 .

XIE L . Research on optimization of QUIC protocol for cluster architecture [D ] . Wuhan:Huazhong University of Science and Technology , 2021 .

WANG Y , ZHAO K L , LI W F , et al . Performance evaluation of QUIC with BBR in satellite Internet [C ] // Proceedings of 2018 6th IEEE International Conference on Wireless for Space and Extreme Environments (WiSEE) . Piscataway:IEEE Press , 2019 : 195 - 199 .

浏览量

546

下载量

CSCD

文章被引用时，请邮件提醒。

提交

工具集

关联资源

算存融合的天基承载网架构

卫星确定性网络关键技术和挑战

星地融合通信系统：网络架构、使能技术及原型验证

面向6G星地融合的云边协同网络架构和关键技术

卫星云网：一种云网融合的卫星网络体系架构