ISSN 1000-1239 CN 11-1777/TP

计算机研究与发展 ›› 2017, Vol. 54 ›› Issue (4): 711-719.doi: 10.7544/issn1000-1239.2017.20161024

所属专题: 2017能源互联网专题

• 网络技术 • 上一篇    下一篇



  1. 1(国家电网公司信息通信分公司 北京 100761); 2(国家电网公司电力信息通信系统运行技术实验室 北京 100761); 3(国家电网公司 北京 100031) (
  • 出版日期: 2017-04-01
  • 基金资助: 

Performance Evaluation of Power Quantum Secure Communication System for Energy Internet

Chen Zhiyu1,2, Gao Dequan1,2, Wang Dong1,2, Li Guochun1, Wei Xiaojing3   

  1. 1(State Grid Information & Telecommunication Branch, Beijing 100761); 2(Electric Power Information & Telecommunication System Operational Technology Laboratory of State Grid Corporation of China, Beijing 100761); 3(State Grid Corporation of China, Beijing 100031)
  • Online: 2017-04-01

摘要: 随着全球能源互联网的快速发展,越来越多分布式能源系统接入,对于能源信息的网络与信息安全关注和需求日益迫切.量子保密通信技术在原理上可实现信息通信的无条件绝对安全,其在电网中的应用尚处于探索试点阶段.围绕全球能源互联网环境下的电力量子保密通信性能进行评估分析研究,1)考虑到电网环境的复杂性和电力通信传输损耗的多样性,提出电力量子保密通信系统性能评估的架构图;2)通过仿真模拟电力通信传输环境、电网实际业务环境,从距离损耗、舞动损耗、接续损耗等6个方面测试评估电力量子保密通信系统中的量子信道和数据交互通道的各项性能指标;3)通过仿真实验验证了该技术在电力通信领域应用的可行性及安全性,有效地支撑能源互联网的发展.

关键词: 能源互联网, 量子保密通信, 性能评估, 传输损耗, 电力通信安全

Abstract: With the rapid development of energy Internet, more and more distributed energy systems are accessed. The demand for network and information security of energy information is increasingly urgent. Theoretically, quantum secure communication can achieve unconditional and absolute security in information communication. However, its application in power grid is still in the stage of exploring. This paper focuses on the performance evaluation of power quantum secure communication in the global energy Internet field. Firstly, considering the diversity of the grid business scenario and transmission loss, the system architecture diagram of power quantum secure communication is proposed. Then, through the simulation of the power communication transmission environment and actual business scenario, indicators that quantum channel and data exchange channel of power quantum secure communication system are evaluated in six aspects (e.g. distance loss, pendulum loss and connection loss). Finally, the feasibility and security of quantum secure communication technology in power communication field are verified by simulation experiments, and the development of energy Internet can be effectively assured.

Key words: energy Internet, quantum secure communication, performance evaluation, transmission loss, power communication security