量子保密通信技术在进博会保电中的应用研究
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摘要
为进一步提升电话电视会议业务的数据传输安全性,减少信息泄露隐患,文章在中国(上海)首届国际进口博览会保电背景下,利用量子保密通信技术基本原理,开展了国家量子"京沪干线"和上海电力量子城域网的建设现状调研,设计了量子保密通信组网方案,构建了国网应急指挥中心、国网上海电力数据中心、上海电力应急指挥中心、上海电力前沿指挥部、进博会现场等多节点的量子保密通信网络,实现了上海进博会电话电视会议业务和量子加密手机的VoIP业务接入量子保密通信网络。在进博会保电现场完成了基于量子保密通信的网络测试和主备用电话电视会议业务测试,突出显示了量子保密通信技术在上海进博会保电电话电视业务的应用价值。
In order to further improve the data transmission security of telephone and video conferencing services and reduce the hidden dangers of information leakage, this paper makes full use of the basic principles of quantum secure communication technology in the background of China(Shanghai) First International Import Expo, and carefully carried out the investigation of the construction status of the Beijing-Shanghai Trunk Line and the Shanghai Electric Power Quantum Metropolitan Area Network, designed the quantum secure communication networking solution, and built the State Grid Emergency Command Center, State Grid Shanghai Power Data Center, the Shanghai Electric Power Emergency Command Center, and the Shanghai Electric Power Frontier Command. The multi-node quantum secure communication network, such as the entrance to the Expo, realized the telecom teleconferencing service of the Shanghai Import Expo and the VoIP service of the quantum encrypted mobile phone accessing into quantum secrecy communication network. The network test and the primary and backup telephone video conference service test based on quantum secure communication were completed at the site of the Expo. It highlights the application value of quantum secure communication technology in the security telecom teleconferencing service of Shanghai Import Expo.
In order to further improve the data transmission security of telephone and video conferencing services and reduce the hidden dangers of information leakage, this paper makes full use of the basic principles of quantum secure communication technology in the background of China(Shanghai) First International Import Expo, and carefully carried out the investigation of the construction status of the Beijing-Shanghai Trunk Line and the Shanghai Electric Power Quantum Metropolitan Area Network, designed the quantum secure communication networking solution, and built the State Grid Emergency Command Center, State Grid Shanghai Power Data Center, the Shanghai Electric Power Emergency Command Center, and the Shanghai Electric Power Frontier Command. The multi-node quantum secure communication network, such as the entrance to the Expo, realized the telecom teleconferencing service of the Shanghai Import Expo and the VoIP service of the quantum encrypted mobile phone accessing into quantum secrecy communication network. The network test and the primary and backup telephone video conference service test based on quantum secure communication were completed at the site of the Expo. It highlights the application value of quantum secure communication technology in the security telecom teleconferencing service of Shanghai Import Expo.
引文
[1]马硕.上海青浦:为首届进博会安保维稳筹备工作护航[J].方圆,2018(17):76.
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[14]LIU Z,CHEN H,LIU W,et al.Quantum secure direct communication with optimal quantum superdense coding by using general four-qubit states[J].Quantum Information Processing,2013,12(1):587-599.
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[16]杨晓朋,陈海涛,梅力宸,等.量子密钥分发技术在智能变电站中的研究[J].电信科学,2018,34(10):163-169.YANG Xiaopeng,CHEN Haitao,MEI Lichen,et al.Study on quantum key distribution technology in intelligent substation[J].Telecommunications Science,2018,34(10):163-169.
[17]刘晓慧,裴昌幸,聂敏.量子无线通信网络构建及性能分析[J].吉林大学学报(工学版),2014,44(4):1177-1181.LIU Xiaohui,PEI Changxing,NIE Min.Construction and performance analysis of quantum wireless communication network[J].Journal of Jilin University:Engineering Science,2014,44(4):1177-1181.
[18]李转.基于量子保密通讯的量子电话机的设计[J].科技信息,2012(1):149.
[2]赖俊森,吴冰冰,李少晖,等.量子保密通信研究进展与安全性分析[J].电信科学,2015,31(6):46-52.LAI Junsen,WU Bingbing,LI Shaohui,et al.Progress and security analysis of quantum cryptography communication[J].Telecommunications Science,2015,31(6):46-52.
[3]陈智雨,郝悍勇,王栋,等.电力量子保密通信实用化技术研究进展与展望[J].电力信息与通信技术,2018,16(4):15-23.CHEN Zhiyu,HAO Hanyong,WANG Dong,et al.Research progress and prospect of electric power quantum secure communication application technology[J].Electric Power Information and Communication Technology,2018,16(4):15-23.
[4]世界首条量子保密通信干线--“京沪干线”开通[J].天津经济,2017(10):57-58.
[5]中国首个量子通信城域网将开建量子通信发展再添助力[J].起重运输机械,2016(12):16.
[6]刘磊,曲延盛,李明,等.电力量子保密通信研究与应用进展[J].山东电力技术,2018,45(8):29-32,40.LIU Lei,QU Yansheng,LI Ming,et al.Research and application progress of quantum cryptography communication in electric power system[J].Shandong Electric Power,2018,45(8):29-32,40.
[7]杨璐,马鸿洋,郑超,等.基于量子隐形传态的量子保密通信方案[J].物理学报,2017,66(23):37-47.YANG Lu,MA Hongyang,ZHENG Chao,et al.Quantum communication scheme based on quantum teleportation[J].Acta Physica Sinica,2017,66(23):37-47.
[8]罗彬.量子通信及其在电力通信的应用[J].电子测试,2018(20):76-77.LUO Bin.Quantum communication and its application in power communication[J].Electronic Test,2018(20):76-77.
[9]叶志远,陈华智,王文清.量子密钥分发保密通信系统电力应用方向探讨[J].工程建设与设计,2016(8):238-239.YE Zhiyuan,CHEN Huazhi,WANG Wenqing.Exploring the power application direction of secure communication system for quantum key distribution[J].Engineering Construction and Design,2016(8):238-239.
[10]王磊,赵广怀,范晓楠,等.量子保密通信在电网业务应用的方案研究与设计[J].电力信息与通信技术,2018,16(3):34-38.WANG Lei,ZHAO Guanghuai,FAN Xiaonan,et al.Research and design of quantum private communication in power grid service application[J].Electric Power Information and Communication Technology,2018,16(3):34-38.
[11]赵菁.基于量子密钥的VPN密钥管理模型研究[J].计算机安全,2014(2):7-10.ZHAO Jing.The VPN key management model based on quantum key research[J].Computer Security,2014(2):7-10.
[12]刘翼鹏,郭建胜,崔竞一.高效短种子量子密钥分配保密放大方案设计[J].光学学报,2017,37(2):273-282.LIU Yipeng,GUO Jiansheng,CUI Jingyi.Design of secure amplification scheme for efficient short seed quantum key distribution[J].Acta Optica Sinica,2017,37(2):273-282.
[13]陈智雨,高德荃,王栋,等.面向能源互联网的电力量子保密通信系统性能评估[J].计算机研究与发展,2017,54(4):711-719.CHEN Zhiyu,GAO Dequan,WANG Dong,et al.Performance evaluation of power quantum secure communication system for energy internet[J].Journal of Computer Research and Development,2017,54(4):711-719.
[14]LIU Z,CHEN H,LIU W,et al.Quantum secure direct communication with optimal quantum superdense coding by using general four-qubit states[J].Quantum Information Processing,2013,12(1):587-599.
[15]曹原,赵永利,郁小松,等.量子密钥分发驱动安全电力通信网络体系架构[J].中国电力,2017,50(10):8-11,34.CAO Yuan,ZHAO Yongli,YU Xiaosong,et al.Secure power communication network architecture driven by quantum key distribution[J].Electric Power,2017,50(10):8-11,34.
[16]杨晓朋,陈海涛,梅力宸,等.量子密钥分发技术在智能变电站中的研究[J].电信科学,2018,34(10):163-169.YANG Xiaopeng,CHEN Haitao,MEI Lichen,et al.Study on quantum key distribution technology in intelligent substation[J].Telecommunications Science,2018,34(10):163-169.
[17]刘晓慧,裴昌幸,聂敏.量子无线通信网络构建及性能分析[J].吉林大学学报(工学版),2014,44(4):1177-1181.LIU Xiaohui,PEI Changxing,NIE Min.Construction and performance analysis of quantum wireless communication network[J].Journal of Jilin University:Engineering Science,2014,44(4):1177-1181.
[18]李转.基于量子保密通讯的量子电话机的设计[J].科技信息,2012(1):149.