量子无线通信技术在海洋环境监测中的应用
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摘要
以量子技术为基础,利用光子基本粒子的量子纠缠原理,由量子态携带在线实时海洋环境监测数据信息,构建基于量子无线通信的海洋环境监测系统。该系统在无线通信中可确保数据的安全性、系统性、及时性和准确性,提高信息化和灵活化水平,可为海洋环境规划、环境管理、环境治理等提供全面安全可靠的监测数据。
In this study, a marine environmental monitoring system was developed based on quantum technology. The quantum entanglement principle of fundamental particles was employed, whereby the quantum state was the carrier of the real-time marine environmental monitoring data. This quantum-assisted wireless communication system ensures the security, systematicness, timeliness, and data accuracy in wireless communications, thereby improving informationization and flexibility. Thus, it can provide comprehensive and safe monitoring data for marine environmental planning, environmental management and environmental management.
In this study, a marine environmental monitoring system was developed based on quantum technology. The quantum entanglement principle of fundamental particles was employed, whereby the quantum state was the carrier of the real-time marine environmental monitoring data. This quantum-assisted wireless communication system ensures the security, systematicness, timeliness, and data accuracy in wireless communications, thereby improving informationization and flexibility. Thus, it can provide comprehensive and safe monitoring data for marine environmental planning, environmental management and environmental management.
引文
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[20]王骥,周文静,沈玉利.基于无线传感器网络的海洋环境监测系统研究[J].计算机工程与设计,2008,29,3334-3337.Wang Ji,Zhou Wenjing,Shen Yuli.Research on marine environment monitor system based on wireless sensor network[J].Computer Engineering and Design,2008,29,3334-3337.
[21]汤煜,刘尉悦,李凤芝.基于定点数据的星地量子通信数据仿真[J].量子电子学报,2017,34:441-445.Tang Yi,Liu Weiyue,LI Fengzhi.Date simulation of satellite-ground quantum communication based on fixed point data[J].Chinese Journal of Quantum Electronics,2017,34:441-445.
[22]Song Chao,Xu Kai,Liu Wuxiu,et al.10-qubit entanglement and parallel logic operations with a superconducting circuit[J].Physical Review Letters,2017,119:180511.
[23]Bernien H,Schwartz S,Keesling A,et al.Probing manybody dynamics on a 51-atom quantum simulator[J].Nature,551:579-584.
[2]陆刚,安海容,王琳,等.加强环境监测数据安全措施的探讨[J].环境科学与技术,2004,27:191-192.Lu Gang,An Hairong,Wang Lin,et al.Discussion on strengthening safety measures for environmental monitoring data[J].Environmental Science and Technology,2004,27:191-192.
[3]陈莉.基于Zig Bee协议的环境监测无线传感器网络测量节点的设计[D].上海:上海交通大学,2008:1-92.Chen Li.The Node Design of Environment Monitoring Wireless Sensor Network Based on Zig Bee[D].Shanghai:Shanghai Jiaotong University,2008:1-92.
[4]于海斌,曾鹏.智能无线传感器网络系统[M].北京:科学出版社,2006:5-11.Yu Haibin,Zeng Peng.Smart Wireless Sensor Network System[M].Beijing:Science Press,2006:5-11.
[5]付良瑞,朱宝良,胡祥超,等.一种多通道无线静态应变测量装置[J].仪表技术与传感器,2017(11):45-50.Fu Liangrui,Zhu Baoliang,Hu Xiangchao,et al.Multichannel wireless static strain measuring device[J].Instrument Technique and Sensor,2017(11):45-50.
[6]郭祥东.基于无线射频传输技术的海洋环境监测系统的设计[J].科技创新与应用,2015,33:41-42.Guo Xiangdong.Design of marine environmental monitoring system based on wireless radio frequency transmission technology[J].Technological Innovation and Application,2015,33:41-42.
[7]吕斌,贺海靖,刘杰.基于无线传感器网络的海洋环境监测技术研究[J].山东科学,2011,24:41-44.LüBin,He Haijing,Liu Jie.Development of a wireless sensor networks based ocean environment monitoring system[J].Shandong Science,2011,24:41-44.
[8]高永强.量子通信原理及应用[J].通信企业管理,2017,1:61-63.Gao Yongqiang.Quantum communication principles and applications[J].Communications Enterprise Management,2017,1:61-63.
[9]吕艺.浅析量子通信技术及其发展前景[J].科技创新与应用,2016,17:91.LüYi.Analysis of quantum communication technology and its development prospects[J].Science and Technology Innovation and Application,2016,17:91.
[10]姚猛,张文博.量子通信技术原理与未来的应用研究[J].数码世界,2017,10:192.Yao Meng,Zhang Wenbo.Quantum communication technology principles and future application research[J].Digital World,2017,10:192.
[11]范新灿,刘凯洋,温晓军.量子移动互联通信传输及路由协议研究[J].量子电子学报,2017,34:581-587.Fan Xincan,Liu Kaiyang,Wen Xiaojun.Communication transmission and routing protocols of quantum mobile internet[J].Chinese Journal of Quantum Electronics,2017,34:581-587.
[12]黄红梅.利用一个两粒子纠缠态实现N粒子GHZ纠缠态的隐形传态[J].量子电子学报,2012,6:695-700.Huang Hongmei.Using a two-particle entangled state to realize the teleportation of the n-particle GHZ entangled states[J].Chinese Journal of Quantum Electronics,2012,6:695-700.
[13]刘乃安,李晓辉.无线局域网:原理,技术与应用[M].西安:西安电子科技大学出版社,2004:5.Liu Naian,Li Xiaohui.Wireless LAN:Theory,Technology and Application[M].Xi’an:Xidian University Press,2004:5.
[14]张沛,周小清,李智伟.基于量子隐形传态的无线通信网络身份认证方案[J].物理学报,2014,63:1303011-1303015.Zhang Pei,Zhou Xiaoqing,Li Zhiwei.Identification scheme based on quantum teleportation for wireless communication networks[J].Acta Physica Sinica,2014,63:1303011-1303015.
[15]畅福善.基于VPN网络的环境监测信息系统的设计与实现[J].通信技术,2009,42:151-157.Chang Fushan,Design and Implementation of VPN-based Environment Monitoring Information System[J].Communications Technology,2009,42:151-157.
[16]翟维枫,张晓楠,孙德辉.基于无线传感网络的环境监测系统设计[J].中国农机化学报,2016,37:226-230.Zhai Weifeng,Zhang Xiaonan,Sun Dehui.Design of environmengal monitoring system based on wireless sensor network[J].Journal Chinese Agricultural Mechanization,2016,37:226-230.
[17]罗克佳华.布设“环保天眼”实现靶向治理[N/OL].太原日报,2017-10-04[2017-10-10],http://www.hbzhan.com/company_news/detail/369160.html.Luo Kejiahua.Put“Eco-friendly Sky Eyes”to Realize Targeted Governance[N/OL].Taiyuan Daily.2017-10-04[2017-10-10],http://www.hbzhan.com/company_news/detail/369160.html.
[18]何世钧,陈中华,张雨,等.基于物联网的海洋环境监测系统的研究[J].传感器与微系统,2011,30:13-15.He Shijun,Chen Zhonghua,Zhang Yu.Research on moni-toring system of marine environment based on internet of things[J].Transducer and Microsystem Technologies,2011,30:13-15.
[19]杨祯明.基于海洋环境数据的物联网动态监测系统设计[J].舰船科学技术,2017,39:153-155.Yang Zhenming,Design of dynamic monitoring system of internet of things based on marine environmental data[J].Ship Science and Technology,2017,39:153-155.
[20]王骥,周文静,沈玉利.基于无线传感器网络的海洋环境监测系统研究[J].计算机工程与设计,2008,29,3334-3337.Wang Ji,Zhou Wenjing,Shen Yuli.Research on marine environment monitor system based on wireless sensor network[J].Computer Engineering and Design,2008,29,3334-3337.
[21]汤煜,刘尉悦,李凤芝.基于定点数据的星地量子通信数据仿真[J].量子电子学报,2017,34:441-445.Tang Yi,Liu Weiyue,LI Fengzhi.Date simulation of satellite-ground quantum communication based on fixed point data[J].Chinese Journal of Quantum Electronics,2017,34:441-445.
[22]Song Chao,Xu Kai,Liu Wuxiu,et al.10-qubit entanglement and parallel logic operations with a superconducting circuit[J].Physical Review Letters,2017,119:180511.
[23]Bernien H,Schwartz S,Keesling A,et al.Probing manybody dynamics on a 51-atom quantum simulator[J].Nature,551:579-584.