巨型星座系统的网络运维与资源管控技术

周笛; 盛敏; 郝琪; 李建东; 刘建平

doi:10.11959/j.issn.2096-8930.20200103

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巨型星座系统的网络运维与资源管控技术

研究 | 更新时间：2024-06-03

- 巨型星座系统的网络运维与资源管控技术
- Network Operation,Maintenance and Resource Management in Mega Constellation System
- 天地一体化信息网络 2020年1卷第1期页码：26-35
- 作者机构：
  
  1. 西安电子科技大学综合业务网理论及关键技术国家重点实验室，陕西西安 710071
  2. 西安卫星测控中心宇航动力学国家重点实验室，陕西西安 710043
- 作者简介：
  
  [ "周笛（1991-），女，博士，西安电子科技大学讲师，主要研究方向为空间信息网络任务规划及资源管理、卫星互联网资源管控技术等" ]
  [ "盛敏（1975-），女，博士，西安电子科技大学教授，主要研究方向为B5G/6G移动通信网络、异构网络融合以及空间信息网络等" ]
  [ "郝琪（ 1996-） , 女，学士，西安电子科技大学通信工程学院博士生，主要研究方向为异构融合网络资源调度及组网技术等" ]
  [ "李建东（1962-），男，博士，西安电子科技大学教授，主要研究方向为空间信息网络、智能无线网络、大规模自组织网等" ]
  [ "刘建平（1975-），男，博士，西安卫星测控中心正高级工程师，主要研究方向为航天器飞行任务规划与调度" ]
- 基金信息：
  
  国家自然科学基金资助项目;The National Natural Science Foundation of China(U19B2025);国家自然科学基金资助项目;The National Natural Science Foundation of China(91638202);国家自然科学基金资助项目;The National Natural Science Foundation of China(61725103);中国博士后科学基金项目;The China Postdoctoral Science Foundation(2019TQ0241);中国博士后科学基金项目;The China Postdoctoral Science Foundation(2020M673344);中央高校新教师创新基金;The Fundamental Research Funds for the Central Universities(XJS200117)
- DOI：10.11959/j.issn.2096-8930.20200103
  中图分类号： TN927.2
- 网络出版日期：2020-09-20，
  
  纸质出版日期：2020-09-20
- 稿件说明：
移动端阅览
周笛, 盛敏, 郝琪, 等. 巨型星座系统的网络运维与资源管控技术[J]. 天地一体化信息网络, 2020,1(1):26-35.

Di ZHOU, Min SHENG, Qi HAO, et al. Network Operation,Maintenance and Resource Management in Mega Constellation System[J]. Space-integrated-ground information networks, 2020, 1(1): 26-35.
周笛, 盛敏, 郝琪, 等. 巨型星座系统的网络运维与资源管控技术[J]. 天地一体化信息网络, 2020,1(1):26-35. DOI： 10.11959/j.issn.2096-8930.20200103.

Di ZHOU, Min SHENG, Qi HAO, et al. Network Operation,Maintenance and Resource Management in Mega Constellation System[J]. Space-integrated-ground information networks, 2020, 1(1): 26-35. DOI： 10.11959/j.issn.2096-8930.20200103.

摘要

随着星座系统整体规模的不断增大，其服务能力逐步从传统的移动通信服务向宽带互联服务拓展，从而对星座系统的运维与资源管控提出了新的要求。首先分析星座规模、资源动态性、资源故障等因素对巨型星座系统面向性能管理的网络运维与资源管控带来的挑战，从业务预测、资源感知与维护及动态资源切片方面探讨面向巨型星座系统的网络运维与资源管控关键技术，并提出智能的网络管控架构来实现巨型星座系统的轻量级运维与资源管控，为天地一体化信息网络的运维及资源管控技术奠定理论基础。

Abstract

As the overall scale of the constellation system continues to increase

its service capabilities are gradually expanding from traditional mobile communication services to broadband interconnection services

which puts forward new requirements for the operation

maintenance and resource management in the satellite constellation system.The challenges brought by constellation scale

resource dynamics

and resource failure for the performance management-oriented network operation and maintenance and resource management in mega constellation system (MCS) were fi rst analyzed.The key technologies of network operation

maintenance and resource management for MCS were discussed from the aspects of traff c prediction and resource perception and maintenance and dynamic resource slicing.An intelligent network management and control architecture was proposed to realize lightweight operation and maintenance and resource management for MCS

laying a theoretical foundation for the efficient network operation and maintenance and resource management technology for future space-terrestrial integrated networks.

关键词

Keywords

references

MAURO D S , CIANCA , ERNESTINA , et al . Satellite communications supporting internet of remote things [J ] . IEEE Internet of Things Journal , 2016 , 3 ( 1 ): 113 - 23 .

ZHANG Z Q , XIAO Y , MA Z , et al . 6G wireless networks:Vision,requirements,architecture,and key technologies [J ] . IEEE Vehicular Technology Magazine , 2019 , 14 ( 3 ): 28 - 41 .

SAAD W , BENNIS M , CHEN M . A vision of 6G wireless systems:Applications,trends,technologies,and open research problems [J ] . IEEE Network , 2020 , 34 ( 3 ): 134 - 142 .

GIAMBENE G , KOTA S , PILLAI P . Satellite-5G integration:A network perspective [J ] . IEEE Network , 2018 , 32 ( 5 ): 25 - 31 .

ZHAO B , LIU P , WANG X , et al . Toward effcient authentication for space-air-ground integrated Internet of things [J ] . International Journal of Distributed Sensor Networks , 2019 , 15 ( 7 ): 1 - 14 .

GIAMBENE G , LUONG D K , COLA T D , et al . Analysis of a packet-level block coding approach for terrestrial-satellite mobile systems [J ] . IEEE Transactions on Vehicular Technology , 2019 , 68 ( 8 ): 8117 - 8132 .

YANG Y , XU M , WANG D , et al . Towards energy-efficient routing in satellite networks [J ] . IEEE Journal on Selected Areas in Communications , 2016 , 34 ( 12 ): 3869 - 3886 .

SHENG M , WANG Y , LI J D , et al . Toward a flexible and reconfigurable broadband satellite network:Resource management architecture and strategies [J ] . IEEE Wireless Communications , 2017 , 24 ( 4 ): 127 - 133 .

SHI Y,LIU J , FADLULLAH Z M , KATO N . Cross-layer data delivery in satellite-aerial-terrestrial communication [J ] . IEEE Wireless Communications , 2018 , 25 ( 3 ): 138 - 143 .

QIU J , GRACE D , DING G , et al . Air-ground heterogeneous networks for 5G and beyond via integrating high and low altitude platforms [J ] . IEEE Wireless Communications , 2019 , 26 ( 6 ): 140 - 148 .

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

LIU J , SHI Y , FADLULLAH Z M , et al . Space-air-ground integrated network:A survey [J ] . IEEE Communications Surveys＆ Tutorials , 2018 , 20 ( 4 ): 2714 - 2741 .

ZHANG N , ZHANG S , YANG P , et al . Software defined spaceair-ground integrated vehicular networks:Challenges and solutions [J ] . IEEE Communications Magazine , 2017 , 55 ( 7 ): 101 - 109 .

LI H , ZUO Y Z , ZHANG Z P , et al . Design and development for an effective network operation and maintenance management system [J ] . Technology Study , 2020 ( 04 ): 20 - 22 .

沈俊 , 高卫斌 , 张更新 . 低轨卫星物联网的发展背景、业务特点和技术挑战 [J ] . 电信科学 , 2019 , 35 ( 5 ): 119 - 125 .

SHEN J , GAO W B , ZHANG G X . Developing background,service characteristics and challenges of LEO IoT [J ] . Telecommunications Science , 2019 , 35 ( 5 ): 119 - 125 .

SHENG Q , JANG D D , LIU W H . A prediction approach to endto-end traffic in space information networks [C ] // 2019 IEEE International Conference on Industrial Internet (ICII),Orlando,FL,USA , 2019 : 115 - 119 .

MORALES F , RUIZ M , GIFRE L , et al . Virtual network topology adaptability based on data analytics for traffic prediction [J ] . IEEE/OSA Journal of Optical Communications and Networking , 2017 , 9 ( 1 ):A35-A45.

EYNDE J V D , BLONDIA C . Measurement-based dynamic resource allocation on traffic aggregates [C ] // 2019 IEEE International Conference on Communication . Networks and Satellite (Comnetsat),Makassar,Indonesia , 2019 : 52 - 59 .

DEL P I , CAMERON B G , CRAWLEY E F . A technical comparison of three low earth orbit satellite constellation systems to provide global broadband [J ] . Acta Astronautica , 2019 , 159 ( 6 ): 123 - 135 .

王红运 . 基于SDN控制器的故障恢复与负载均衡策略研究 [D ] . 合肥:安徽大学 , 2020 .

WANG H Y . Research on fault recovery and load balancing strategy based SDN controller [D ] . Hefei:Anhui University , 2020 .

韩江雪 . 空间网络抗毁路由与流量控制关键技术研究与开发 [D ] . 北京:北京邮电大学 , 2016 .

HAN J X . The Research and development of resilient routing and traffic engineering technology in space network [D ] . Beijing:Beijing University of Posts and Telecommunications , 2016 .

LIU Y , YIN C H , HU D , et al . Communication satellite fault detection based on recurrent neural network [J ] . COMPUTER SCIENCE , 2020 , 47 ( 2 ): 227 - 232 .

WANG G Y , LV Z D , WANG X . Research on security routing of satellite network [J ] . Network and Communication , 2020 ( 5 ):83.

崔丽华 . 基于深度学习的光网络故障预测技术研究 [D ] . 北京:北京邮电大学 , 2019 ： 1 - 72 .

CUI L H . Research on fault prediction technology of optical networks based on deep learning [D ] . Beijing:Beijing University of Posts and Telecommunications , 2019 .

楼丽琪 . 基于机器学习的光网络告警智能分析技术研究 [D ] . 北京:北京邮电大学 , 2019 .

LOU L Q . Research on intelligent analysis technology of optical network alarm based on machine learning [D ] . Beijing:Beijing University of Posts and Telecommunications , 2019 .

DANDACHI G , DE DOMENICO A , HOANG D T , et al . An artificial intelligence framework for slice deployment and orchestration in 5G networks [J ] . IEEE Transactions on Cognitive Communications and Networking , 2020 , 6 ( 2 ): 858 - 871 .

SU Y T , LIU Y Q , ZHOU Y Q et al . Broadband LEO satellite communications:architectures and key technologies [J ] . IEEE Wireless Communications , 2019 , 26 ( 2 ): 55 - 61 .

LIU J J , SHI Y P , ZHAO L , et al . Joint placement of controllers and gateways in SDN-enabled 5G-satellite integrated network [J ] . IEEE Journal on Selected Areas in Communications , 2018 , 36 ( 2 ): 221 - 232 .

CAO S Z , WEI J Y , HAN H , et al . Space edge cloud enabling network slicing for 5G satellite network [C ] // 2019 15th International Wireless Communications ＆ Mobile Computing Conference (IWCMC),Tangier,Morocco , 2019 : 787 - 792 .

ORDONEZ-LUCENA J , ADAMUZ-HINOJOSA , OSCAR , et al . The creation phase in network slicing:From a service order to an operative network slice [C ] // 2018 European Conference on Networks and Communications (EuCNC),Ljubljana,Slovenia , 2018 : 1 - 36 .

XIAO S , CHEN W . Dynamic allocation of 5G transport network slice bandwidth based on LSTM traffic prediction [C ] // 2018 IEEE 9th International Conference on Software Engineering and Service Science (ICSESS),Beijing,China , 2018 : 735 - 739 .

XU Q , WANG J , WU K . Learning-based dynamic resource provisioning for network slicing with ensured end-to-end performance bound [J ] . IEEE Transactions on Network Science and Engineering , 2020 , 7 ( 1 ): 28 - 41 .

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