泛在电力物联网关键技术探讨
|
摘要
能源供应压力不断增大和大量多种类型分布式能源不断接入给电力系统的经济运行、安全管理和应用服务提出了前所未有的挑战。国家电网有限公司提出了打造泛在电力物联网的构想,拟通过物联网技术赋予电力系统灵活感知、实时通信、智能控制和可靠的信息安全等能力,不断提升电网运行控制和调度的智能化水平,持续深入提高各种类型能源之间的互动能力,将现有的电力系统转变为更高效、更安全、更可靠、更具弹性和可持续性的智能网络化电力能源系统。对泛在电力物联网的基本概念、主要特点、关键技术和典型应用进行说明与分析,在此基础上给出泛在电力物联网建设面临的主要挑战,为相关研究的深入开展提供有益的参考。
The increasing pressure of energy supply and the continuous access of a large number of distributed energy sources pose unprecedented challenges to the economic operation, security management and application services of power systems. The State Grid Corporation of China has put forward the idea of building the ubiquitous power internet of things. With the internet of things technology, the power system would be endowed the ability of flexible perception, real-time communication, intelligent control and reliable information security. It would be benefit to improve the intelligent level of power grid operation control and dispatch, enhance the interaction ability between various types of energy and transform the existing power system into an intelligent networked power energy system with higher efficiency, safety, reliability, elasticity and sustainability. After analyzing the basic concepts, main characteristics, key technologies and typical applications of ubiquitous power internet of things, the main challenges faced by the construction of ubiquitous power internet of things is summarized in order to provide useful reference for related research.
The increasing pressure of energy supply and the continuous access of a large number of distributed energy sources pose unprecedented challenges to the economic operation, security management and application services of power systems. The State Grid Corporation of China has put forward the idea of building the ubiquitous power internet of things. With the internet of things technology, the power system would be endowed the ability of flexible perception, real-time communication, intelligent control and reliable information security. It would be benefit to improve the intelligent level of power grid operation control and dispatch, enhance the interaction ability between various types of energy and transform the existing power system into an intelligent networked power energy system with higher efficiency, safety, reliability, elasticity and sustainability. After analyzing the basic concepts, main characteristics, key technologies and typical applications of ubiquitous power internet of things, the main challenges faced by the construction of ubiquitous power internet of things is summarized in order to provide useful reference for related research.
引文
[1] 叶祖丽.推进高质量发展支撑世界一流能源互联网企业建设:公司2018年信息通信工作会议解读[N].国家电网报,2018-02-12(2).
[2] 实现 “三流合一” 推动坚强智能电网与泛在电力物联网融合发展[N/OL].北极星输配电网,2019-01-23[2019-03-01].http://shupeidian.bjx.com.cn/html/20190123/958539.shtml
[3] 郎为民.大话物联网[M].北京:人民邮电出版社,2011.
[4] 汪洋,苏斌,赵宏波.电力物联网的理念和发展趋势[J].电信科学,2010(S3):9-14.
[5] 李勋,龚庆武,乔卉.物联网在电力系统的应用展望[J].电力系统保护与控制,2010,38(22):232-236.LI Xun,GONG Qingwu,QIAO Hui.The application of IoT in power systems[J].Power System Protection and Control,2010,38(22):232-236.
[6] 国家电网有限公司能源互联网部.泛在电力物联网建设大纲 [N/OL].2019-03-08[2019-03-08].http://baijiahao.baidu.com/s?id=1627631245232851888&wfr=spider&for=pc.
[7] 中国互联网络信息中心.第43次中国互联网络发展状况统计报告[R].北京:中国互联网络信息中心,2018.
[8] BEDI G,VENAYAGAMOORTHY G K,SINGH R,et al.Review of internet of things (IoT) in electric power and energy systems[J].IEEE Internet of Things Journal,2018,5(2):847-870.
[9] 李向阳,喇果彦,向英,等.大云物移智等新技术在电网应用的研究[J].电力信息与通信技术,2019,17(1):89-93.LI Xiangyang,LA Guoyan,XIANG Ying,et al.Analysis of new technologies including big data,cloud computing,Internet of things,mobile internet,artificial intelligence in power grid applications[J].Electric Power Information and Communication Technology,2019,17(1):89-93.
[10] MUKHOPADHYAY S C,SURYADEVARA N K.Internet of things:Challenges and opportunities[M]//MUKHOPADHYAY S C,SURYADEVARA N K.eds.Internet of Things.Cham:Springer International Publishing,2014:1-17.DOI:10.1007/978-3-319-04223-7_1.
[11] LEE W,CHO S,CHU P,et al.Automatic agent generation for IoT-based smart house simulator[J].Neurocomputing,2016,209:14-24.
[12] LIU J,LI X,CHEN X,et al.Applications of Internet of Things on smart grid in China[C]// 13th International Conference on Advanced Communication Technology (ICACT2011).IEEE,2011.
[13] KU M L,LI W,CHEN Y,et al.Advances in energy harvesting communications:Past,present,and future challenges[J].IEEE Communications Surveys and Tutorials,2016,18 (2):1384-1412.
[14] 牛晓鹏.普适计算环境下人体行为识别及情景感知研究[D].北京:北京科技大学,2018.NIU Xiaopeng.Research on human activity recognition and context-awareness in pervasive computing environments[D].Beijing:University of Science and Technology,2018.
[15] VENAYAGAMOORTHY G K.Dynamic,stochastic,computational,and scalable technologies for smart grids[J].IEEE Computational Intelligence Magazine,2011,6(3):22-35.
[16] GAZIS V.A survey of standards for machine to machine (M2M) and the internet of things (IoT)[J].IEEE Communications Surveys & Tutorials,2017,19(1):482-511.
[17] PALATTELLA M R,ACCETTURA N,VILAJOSANA X,et al.Standardized protocol stack for the internet of (important) things[J].IEEE Communications Surveys & Tutorials,2013,15(3):1389-1406.
[18] KORCZYNSKI E D.IoT demands:Are we ready?[J].Solid State Technol,2016,59(4):19-23.
[19] AGIWAL M,ROY A,SAXENA N.Next generation 5G wireless networks:A comprehensive survey[J].IEEE Communications Surveys & Tutorials,2017,18(3):1617-1655.
[20] 曹扬,魏畅.基于效用函数的电力物联网异构网络接入QoS保障方法[J].南方能源建设,2017,4(1):87-91.CAO Yang,WEI Chang.Utility function based network access nethod in power grid HetNets with QoS guarantee[J].Southern Energy Construction,2017,4(1):87-91.
[21] 伏冬红,刘丹,施贵军,等.基于电力物联网边缘计算实现脱网应急通信的方法[J].电信科学,2018,34(3):183-191.FU Donghong,LIU Dan,SHI Guijun,et al.Off-line emergency communication method of power Internet of Things based on edge computing[J].Telecommunications Science,2018,34(3):183-191.
[22] 荆孟春,王继业,程志华,等.电力物联网传感器信息模型研究与应用[J].电网技术,2014,38(2):532-537.JING Mengchun,WANG Jiye,CHENG Zhihua,et al.Research and application of sensor information model in power Internet of Things [J].Power System Technology,2014,38(2):532-537.
[23] WANG Q,WANG Y G.Research on power Internet of Things architecture for smart grid demand[C]// 2018 2nd IEEE Conference on Energy Internet and Energy System Integration (EI2).Beijing:IEEE,2018.
[24] 刘羽霄,张宁,康重庆.数据驱动的电力网络分析与优化研究综述[J].电力系统自动化,2018,42(6):157-167.LIU Yuxiao,ZHANG Ning,KANG Chongqing.A review on data-driven analysis and optimization of power grid[J].Automation of Electric Power Systems,2018,42(6):157-167.
[25] 李刚,张博,赵文清,等.电力设备状态评估中的数据科学问题:挑战与展望[J].电力系统自动化,2018,42(21):10-20.LI Gang,ZHANG Bo,ZHAO Wenqing,et al.Data science issues in state evaluation of power equipment:Challenges and prospects[J].Automation of Electric Power Systems,2018,42(21):10-20.
[26] HE X,CHU L,QIU R C,et al.A novel data-driven situation awareness approach for future grids-using large random matrices for big data modeling[J].IEEE Access,2018,6:13855- 13865.
[27] 郝然,艾芊,肖斐.基于多元大数据平台的用电行为分析构架研究[J].电力自动化设备,2017,37(8):20-27.HAO Ran,AI Qian,XIAO Fei.Architecture based on multivariate big data platform for analyzing electricity consumption behavior[J].Electric Power Automation Equipment,2017,37(8):20-27.
[28] 王奇,庄远灿,阎帅,等.基于随机矩阵理论的交直流输电通道线损大数据关联特性分析[J].电力自动化设备,2018,38(5):70-76.WANG Qi,ZHUANG Yuancan,YAN Shuai,et al.Relevance characteristic analysis of line loss big data in AC and DC transmission channels based on random matrix theory[J].Electric Power Automation Equipment,2018,38(5):70-76.
[29] 陈碧云,丁晋,陈绍南.基于关联规则挖掘的电力生产安全事故事件关键诱因筛选[J].电力自动化设备,2018,38(4):68-74.CHEN Biyun,DING Jin,CHEN Shaonan.Selection of key incentives for power production safety accidents based on association rule mining[J].Electric Power Automation Equipment,2018,38(4):68-74.
[30] 申建建,曹瑞,苏承国,等.水火风光多源发电调度系统大数据平台架构及关键技术[J],中国电机工程学报,2019,39 (1):43-55.SHEN Jianjian,CAO Rui,SU Chengguo,et al.Big data platform architecture and key techniques of power generation scheduling for hydro-thermal-wind-solar hybrid system[J].Proceedings of the CSEE,2019,39 (1):43-55.
[31] 冷喜武,陈国平,白静洁,等.智能电网监控运行大数据分析系统总体设计[J].电力系统自动化,2018,42(12):160-166.LENG Xiwu,CHEN Guoping,BAI Jingjie,et al.General design of smart grid monitoring operation big data analysis system[J].Automation of Electric Power Systems,2018,42(12):160-166.
[32] 冷喜武,陈国平,蒋宇,等.智能电网监控运行大数据分析系统的数据规范和数据处理[J].电力系统自动化,2018,42(19):169-176.LENG Xiwu,CHEN Guoping,JIANG Yu,et al.Data specification and processing in big-data analysis system for monitoring and operation of smart grid[J].Automation of Electric Power Systems,2018,42(19):169-176.
[33] 冷喜武,陈国平,蒋宇,等.智能电网监控运行大数据应用模型构建方法[J].电力系统自动化,2018,42(20):115-122.LENG Xiwu,CHEN Guoping,JIANG Yu,et al.Model construction method of big data application for monitoring and control of smart grid[J].Automation of Electric Power Systems,2018,42(20):115-122.
[34] 郭健,周京阳,李强,等.高性能在线分析计算现状与协同计算关键技术[J].电力系统自动化,2018,42(3):149-159.GUO Jiang,ZHOU Jingyang,LI Qiang,et al.Current status of high-performance on-line analysis computation and key technologies for cooperating computation[J].Automation of Electric Power Systems,2018,42(3):149-159.
[35] 方勇杰,王胜明.适应多级调度安全稳定分析资源共享的分布式计算管理平台[J].电力系统自动化,2016,40(23):1-8.FANG Yongjie,WANG Shengming.Distributed computing management platform for sharing resource of multi-level dispatch security and stability analysis[J].Automation of Electric Power Systems,2016,40(23):1-8.
[36] GOMBA M,NLEYA B.Overview access and control considerations for Internet of Things[C]// 2018 International Conference on Advances in Big Data,Computing and Data Communication Systems.Durban,2018.
[37] 邹维福,陈景晖,翁晓锋,等.电力物联网的风险分析及安全措施研究[J].电力信息与通信技术,2014,12(8):121-125.ZOU Weifu,CHEN Jinghui,WENG Xiaofeng,et al.The security analysis and countermeasure of power Internet of Things[J].Electric Power Information and Communication Technology,2014,12(8):121-125.
[38] 崔阿军,张华峰,范迪龙,等.电力物联网安全防护技术研究[J].电力信息与通信技术,2013,11(3):10-13.CUI Ajun,ZHANG Huafeng,FAN Dilong,et al.Research on security protection technologies for Internet of Things for power corporation[J].Electric Power Information and Communication Technology,2013,11(3):10-13.
[39] 梅沁,李大伟,虎啸.基于NB-IoT的电力物联网安全技术研究[J].电力信息与通信技术,2019,17(1):100-104.MEI Qin,LI Dawei,HU Xiao.Research on security technology of power Internet of Things based on NB-IoT[J].Electric Power Information and Communication Technology,2019,17(1):100-104.
[40] ALAMI A,BENHLIMA L,BAH S.An overview of privacy preserving techniques in smart home wireless sensor networks[C]// 2015 10th International Conference on Intelligent Systems:Theories & Applications.IEEE,2015.
[41] JACOBSSON A,BOLDT M,CARLSSON B.A risk analysis of a smart home automation system[J].Future Generation Computer Systems,2015,56:719-733.
[42] LIU Y,HU S.Smart home scheduling andcybersecurity:Fundamentals[M]//LIU Y,HU S.Smart Cities and Homes.Elsevier,2016:191-217.DOI:10.1016/b978-0-12-803454-5.00010-9.
[43] LIU Y,HU S,WU J,et al.Smart homecybersecurity considering the integration of renewable energy[M]//LIU Y,HU S,WU J,et al.Smart Cities and Homes.Elsevier,2016:173-189.DOI:10.1016/b978-0-12-803454-5.00009-2.
[44] 戴彦,王刘旺,李媛,等.新一代人工智能在智能电网中的应用研究综述[J].电力建设,2018,39(10):10-20.DAI Yan,WANG Liuwang,LI Yuan,et al.A brief survey on applications of new generation artificial intelligence in smart grids[J].Electric Power Construction,2018,39(10):10-20.
[45] 汤奕,崔晗,李峰,等.人工智能在电力系统暂态问题中的应用综述[J].中国电机工程学报,2019,39(1):2-13.TANG Yi,CUI Han,LI Feng,et al.Review on artificial intelligence in power system transient stability analysis[J].Proceedings of the CSEE,2019,39(1):2-13.
[46] 杨挺,赵黎媛,王成山.人工智能在电力系统及综合能源系统中的应用综述[J].电力系统自动化,2019,43(1):2-14.YANG Ting,ZHAO Liyuan,WANG Chengshan.Review on application of artificial intelligence in power system and integrated energy system[J].Automation of Electric Power System,2019,43(1):2-14.
[47] LI W,LOGENTHIRAN T,PHAN V T,et al.Implemented IoT based self-learning home management system (SHMS) for Singapore[J].IEEE Internet of Things Journal,2018,5(3):2212-2219.
[48] TANASIEV V,ULMEANU A P,BADEA A.Hidden markov model for Internet of Things data analysis[C]// 2018 IEEE International Conference on Environment and Electrical Engineering and 2018 IEEE Industrial and Commercial Power Systems Europe(EEEIC/I&CPS Europe).Palermo,2018:1-4.
[49] ZHU J,SONG Y,JIANG D,et al.A new deep-q-learning-based transmission scheduling mechanism for the cognitive Internet of Things[J].IEEE Internet of Things Journal,2017,5(4):2375-2385.
[50] ADAM C,KELLEN S.Electric vehicle sales forecast and the charging infrastructure required through 2030[R].USA:Edison Electric Institute,2018.
[51] PARTYNSKI D,KOO S G M.Physical and social computing- integration of smart sensor networks into Internet of Things:Challenges and applications[C]// IEEE International Conference on Green Computing & Communications & IEEE Internet of Things & IEEE Cyber.IEEE Computer Society,2013:1162-1167.
[52] KELLY S D T,SURYADEVARA N K,MUKHOPADHYAY S C.Towards the implementation of IoT for environmental condition monitoring in homes[J].IEEE Sensors Journal,2013,13(10):3846-3853.
[53] PAN J,JAIN R,PAUL S.A survey of energy efficiency in buildings and microgrids using networking technologies[J].IEEE Communications Surveys & Tutorials,2014,16(3):1709-1731.
[54] SHAH J,MISHRA B.Customized IoT enabled wireless sensing and monitoring platform for smart buildings[J].Procedia Technology,2016,23:256-263.
[55] PROCOPIOU A,KOMNINOS N,DOULIGERIS C.ForChaos:Real time application DDoS detection using forecasting and chaos theory in smart home IoT network[J].Wireless Communications & Mobile Computing,2019(2):1-14.
[56] ERRAPOTU S M,WANG J Y,GONG Y M,et al.SAFE:Secure appliance scheduling for flexible and efficient energy consumption for smart home IoT[J].IEEE Internet of Things Journal,2018,5(6):4380-4391.
[57] 杨丽,冯娟,卢秀丽,等.基于物联网智能家居安全监控系统设计[J/OL].现代电子技术,2019-02-21.http://kns.cnki.net/kcms/detail/61.1224.tn.20190220.1647.036.html.YANG Li,FENG Juan,LU Xiuli,et al.Design of intelligent home safety monitoring system based on Internet of Things[J/OL].Modern Electronics Technique,2019-02-21.http://kns.cnki.net/kcms/detail/61.1224.tn.20190220.1647.036.html.
[58] YASSINE A,SINGH S,HOSSAIN S.M,et al.IoT big data analytics for smart homes with fog and cloud computing[J/OL].Future Generation Computer Systems,2018,https://doi.org/10.1016/j.future.2018.08.040.
[59] LIN Y H.Design and implementation of an IoT-oriented energy management system based on non-intrusive and self-organizing neuro-fuzzy classification as an electrical energy audit in smart homes[J].Applied Sciences,2018,8(12):2337,https://doi.org/10.3390/app8122337.
[2] 实现 “三流合一” 推动坚强智能电网与泛在电力物联网融合发展[N/OL].北极星输配电网,2019-01-23[2019-03-01].http://shupeidian.bjx.com.cn/html/20190123/958539.shtml
[3] 郎为民.大话物联网[M].北京:人民邮电出版社,2011.
[4] 汪洋,苏斌,赵宏波.电力物联网的理念和发展趋势[J].电信科学,2010(S3):9-14.
[5] 李勋,龚庆武,乔卉.物联网在电力系统的应用展望[J].电力系统保护与控制,2010,38(22):232-236.LI Xun,GONG Qingwu,QIAO Hui.The application of IoT in power systems[J].Power System Protection and Control,2010,38(22):232-236.
[6] 国家电网有限公司能源互联网部.泛在电力物联网建设大纲 [N/OL].2019-03-08[2019-03-08].http://baijiahao.baidu.com/s?id=1627631245232851888&wfr=spider&for=pc.
[7] 中国互联网络信息中心.第43次中国互联网络发展状况统计报告[R].北京:中国互联网络信息中心,2018.
[8] BEDI G,VENAYAGAMOORTHY G K,SINGH R,et al.Review of internet of things (IoT) in electric power and energy systems[J].IEEE Internet of Things Journal,2018,5(2):847-870.
[9] 李向阳,喇果彦,向英,等.大云物移智等新技术在电网应用的研究[J].电力信息与通信技术,2019,17(1):89-93.LI Xiangyang,LA Guoyan,XIANG Ying,et al.Analysis of new technologies including big data,cloud computing,Internet of things,mobile internet,artificial intelligence in power grid applications[J].Electric Power Information and Communication Technology,2019,17(1):89-93.
[10] MUKHOPADHYAY S C,SURYADEVARA N K.Internet of things:Challenges and opportunities[M]//MUKHOPADHYAY S C,SURYADEVARA N K.eds.Internet of Things.Cham:Springer International Publishing,2014:1-17.DOI:10.1007/978-3-319-04223-7_1.
[11] LEE W,CHO S,CHU P,et al.Automatic agent generation for IoT-based smart house simulator[J].Neurocomputing,2016,209:14-24.
[12] LIU J,LI X,CHEN X,et al.Applications of Internet of Things on smart grid in China[C]// 13th International Conference on Advanced Communication Technology (ICACT2011).IEEE,2011.
[13] KU M L,LI W,CHEN Y,et al.Advances in energy harvesting communications:Past,present,and future challenges[J].IEEE Communications Surveys and Tutorials,2016,18 (2):1384-1412.
[14] 牛晓鹏.普适计算环境下人体行为识别及情景感知研究[D].北京:北京科技大学,2018.NIU Xiaopeng.Research on human activity recognition and context-awareness in pervasive computing environments[D].Beijing:University of Science and Technology,2018.
[15] VENAYAGAMOORTHY G K.Dynamic,stochastic,computational,and scalable technologies for smart grids[J].IEEE Computational Intelligence Magazine,2011,6(3):22-35.
[16] GAZIS V.A survey of standards for machine to machine (M2M) and the internet of things (IoT)[J].IEEE Communications Surveys & Tutorials,2017,19(1):482-511.
[17] PALATTELLA M R,ACCETTURA N,VILAJOSANA X,et al.Standardized protocol stack for the internet of (important) things[J].IEEE Communications Surveys & Tutorials,2013,15(3):1389-1406.
[18] KORCZYNSKI E D.IoT demands:Are we ready?[J].Solid State Technol,2016,59(4):19-23.
[19] AGIWAL M,ROY A,SAXENA N.Next generation 5G wireless networks:A comprehensive survey[J].IEEE Communications Surveys & Tutorials,2017,18(3):1617-1655.
[20] 曹扬,魏畅.基于效用函数的电力物联网异构网络接入QoS保障方法[J].南方能源建设,2017,4(1):87-91.CAO Yang,WEI Chang.Utility function based network access nethod in power grid HetNets with QoS guarantee[J].Southern Energy Construction,2017,4(1):87-91.
[21] 伏冬红,刘丹,施贵军,等.基于电力物联网边缘计算实现脱网应急通信的方法[J].电信科学,2018,34(3):183-191.FU Donghong,LIU Dan,SHI Guijun,et al.Off-line emergency communication method of power Internet of Things based on edge computing[J].Telecommunications Science,2018,34(3):183-191.
[22] 荆孟春,王继业,程志华,等.电力物联网传感器信息模型研究与应用[J].电网技术,2014,38(2):532-537.JING Mengchun,WANG Jiye,CHENG Zhihua,et al.Research and application of sensor information model in power Internet of Things [J].Power System Technology,2014,38(2):532-537.
[23] WANG Q,WANG Y G.Research on power Internet of Things architecture for smart grid demand[C]// 2018 2nd IEEE Conference on Energy Internet and Energy System Integration (EI2).Beijing:IEEE,2018.
[24] 刘羽霄,张宁,康重庆.数据驱动的电力网络分析与优化研究综述[J].电力系统自动化,2018,42(6):157-167.LIU Yuxiao,ZHANG Ning,KANG Chongqing.A review on data-driven analysis and optimization of power grid[J].Automation of Electric Power Systems,2018,42(6):157-167.
[25] 李刚,张博,赵文清,等.电力设备状态评估中的数据科学问题:挑战与展望[J].电力系统自动化,2018,42(21):10-20.LI Gang,ZHANG Bo,ZHAO Wenqing,et al.Data science issues in state evaluation of power equipment:Challenges and prospects[J].Automation of Electric Power Systems,2018,42(21):10-20.
[26] HE X,CHU L,QIU R C,et al.A novel data-driven situation awareness approach for future grids-using large random matrices for big data modeling[J].IEEE Access,2018,6:13855- 13865.
[27] 郝然,艾芊,肖斐.基于多元大数据平台的用电行为分析构架研究[J].电力自动化设备,2017,37(8):20-27.HAO Ran,AI Qian,XIAO Fei.Architecture based on multivariate big data platform for analyzing electricity consumption behavior[J].Electric Power Automation Equipment,2017,37(8):20-27.
[28] 王奇,庄远灿,阎帅,等.基于随机矩阵理论的交直流输电通道线损大数据关联特性分析[J].电力自动化设备,2018,38(5):70-76.WANG Qi,ZHUANG Yuancan,YAN Shuai,et al.Relevance characteristic analysis of line loss big data in AC and DC transmission channels based on random matrix theory[J].Electric Power Automation Equipment,2018,38(5):70-76.
[29] 陈碧云,丁晋,陈绍南.基于关联规则挖掘的电力生产安全事故事件关键诱因筛选[J].电力自动化设备,2018,38(4):68-74.CHEN Biyun,DING Jin,CHEN Shaonan.Selection of key incentives for power production safety accidents based on association rule mining[J].Electric Power Automation Equipment,2018,38(4):68-74.
[30] 申建建,曹瑞,苏承国,等.水火风光多源发电调度系统大数据平台架构及关键技术[J],中国电机工程学报,2019,39 (1):43-55.SHEN Jianjian,CAO Rui,SU Chengguo,et al.Big data platform architecture and key techniques of power generation scheduling for hydro-thermal-wind-solar hybrid system[J].Proceedings of the CSEE,2019,39 (1):43-55.
[31] 冷喜武,陈国平,白静洁,等.智能电网监控运行大数据分析系统总体设计[J].电力系统自动化,2018,42(12):160-166.LENG Xiwu,CHEN Guoping,BAI Jingjie,et al.General design of smart grid monitoring operation big data analysis system[J].Automation of Electric Power Systems,2018,42(12):160-166.
[32] 冷喜武,陈国平,蒋宇,等.智能电网监控运行大数据分析系统的数据规范和数据处理[J].电力系统自动化,2018,42(19):169-176.LENG Xiwu,CHEN Guoping,JIANG Yu,et al.Data specification and processing in big-data analysis system for monitoring and operation of smart grid[J].Automation of Electric Power Systems,2018,42(19):169-176.
[33] 冷喜武,陈国平,蒋宇,等.智能电网监控运行大数据应用模型构建方法[J].电力系统自动化,2018,42(20):115-122.LENG Xiwu,CHEN Guoping,JIANG Yu,et al.Model construction method of big data application for monitoring and control of smart grid[J].Automation of Electric Power Systems,2018,42(20):115-122.
[34] 郭健,周京阳,李强,等.高性能在线分析计算现状与协同计算关键技术[J].电力系统自动化,2018,42(3):149-159.GUO Jiang,ZHOU Jingyang,LI Qiang,et al.Current status of high-performance on-line analysis computation and key technologies for cooperating computation[J].Automation of Electric Power Systems,2018,42(3):149-159.
[35] 方勇杰,王胜明.适应多级调度安全稳定分析资源共享的分布式计算管理平台[J].电力系统自动化,2016,40(23):1-8.FANG Yongjie,WANG Shengming.Distributed computing management platform for sharing resource of multi-level dispatch security and stability analysis[J].Automation of Electric Power Systems,2016,40(23):1-8.
[36] GOMBA M,NLEYA B.Overview access and control considerations for Internet of Things[C]// 2018 International Conference on Advances in Big Data,Computing and Data Communication Systems.Durban,2018.
[37] 邹维福,陈景晖,翁晓锋,等.电力物联网的风险分析及安全措施研究[J].电力信息与通信技术,2014,12(8):121-125.ZOU Weifu,CHEN Jinghui,WENG Xiaofeng,et al.The security analysis and countermeasure of power Internet of Things[J].Electric Power Information and Communication Technology,2014,12(8):121-125.
[38] 崔阿军,张华峰,范迪龙,等.电力物联网安全防护技术研究[J].电力信息与通信技术,2013,11(3):10-13.CUI Ajun,ZHANG Huafeng,FAN Dilong,et al.Research on security protection technologies for Internet of Things for power corporation[J].Electric Power Information and Communication Technology,2013,11(3):10-13.
[39] 梅沁,李大伟,虎啸.基于NB-IoT的电力物联网安全技术研究[J].电力信息与通信技术,2019,17(1):100-104.MEI Qin,LI Dawei,HU Xiao.Research on security technology of power Internet of Things based on NB-IoT[J].Electric Power Information and Communication Technology,2019,17(1):100-104.
[40] ALAMI A,BENHLIMA L,BAH S.An overview of privacy preserving techniques in smart home wireless sensor networks[C]// 2015 10th International Conference on Intelligent Systems:Theories & Applications.IEEE,2015.
[41] JACOBSSON A,BOLDT M,CARLSSON B.A risk analysis of a smart home automation system[J].Future Generation Computer Systems,2015,56:719-733.
[42] LIU Y,HU S.Smart home scheduling andcybersecurity:Fundamentals[M]//LIU Y,HU S.Smart Cities and Homes.Elsevier,2016:191-217.DOI:10.1016/b978-0-12-803454-5.00010-9.
[43] LIU Y,HU S,WU J,et al.Smart homecybersecurity considering the integration of renewable energy[M]//LIU Y,HU S,WU J,et al.Smart Cities and Homes.Elsevier,2016:173-189.DOI:10.1016/b978-0-12-803454-5.00009-2.
[44] 戴彦,王刘旺,李媛,等.新一代人工智能在智能电网中的应用研究综述[J].电力建设,2018,39(10):10-20.DAI Yan,WANG Liuwang,LI Yuan,et al.A brief survey on applications of new generation artificial intelligence in smart grids[J].Electric Power Construction,2018,39(10):10-20.
[45] 汤奕,崔晗,李峰,等.人工智能在电力系统暂态问题中的应用综述[J].中国电机工程学报,2019,39(1):2-13.TANG Yi,CUI Han,LI Feng,et al.Review on artificial intelligence in power system transient stability analysis[J].Proceedings of the CSEE,2019,39(1):2-13.
[46] 杨挺,赵黎媛,王成山.人工智能在电力系统及综合能源系统中的应用综述[J].电力系统自动化,2019,43(1):2-14.YANG Ting,ZHAO Liyuan,WANG Chengshan.Review on application of artificial intelligence in power system and integrated energy system[J].Automation of Electric Power System,2019,43(1):2-14.
[47] LI W,LOGENTHIRAN T,PHAN V T,et al.Implemented IoT based self-learning home management system (SHMS) for Singapore[J].IEEE Internet of Things Journal,2018,5(3):2212-2219.
[48] TANASIEV V,ULMEANU A P,BADEA A.Hidden markov model for Internet of Things data analysis[C]// 2018 IEEE International Conference on Environment and Electrical Engineering and 2018 IEEE Industrial and Commercial Power Systems Europe(EEEIC/I&CPS Europe).Palermo,2018:1-4.
[49] ZHU J,SONG Y,JIANG D,et al.A new deep-q-learning-based transmission scheduling mechanism for the cognitive Internet of Things[J].IEEE Internet of Things Journal,2017,5(4):2375-2385.
[50] ADAM C,KELLEN S.Electric vehicle sales forecast and the charging infrastructure required through 2030[R].USA:Edison Electric Institute,2018.
[51] PARTYNSKI D,KOO S G M.Physical and social computing- integration of smart sensor networks into Internet of Things:Challenges and applications[C]// IEEE International Conference on Green Computing & Communications & IEEE Internet of Things & IEEE Cyber.IEEE Computer Society,2013:1162-1167.
[52] KELLY S D T,SURYADEVARA N K,MUKHOPADHYAY S C.Towards the implementation of IoT for environmental condition monitoring in homes[J].IEEE Sensors Journal,2013,13(10):3846-3853.
[53] PAN J,JAIN R,PAUL S.A survey of energy efficiency in buildings and microgrids using networking technologies[J].IEEE Communications Surveys & Tutorials,2014,16(3):1709-1731.
[54] SHAH J,MISHRA B.Customized IoT enabled wireless sensing and monitoring platform for smart buildings[J].Procedia Technology,2016,23:256-263.
[55] PROCOPIOU A,KOMNINOS N,DOULIGERIS C.ForChaos:Real time application DDoS detection using forecasting and chaos theory in smart home IoT network[J].Wireless Communications & Mobile Computing,2019(2):1-14.
[56] ERRAPOTU S M,WANG J Y,GONG Y M,et al.SAFE:Secure appliance scheduling for flexible and efficient energy consumption for smart home IoT[J].IEEE Internet of Things Journal,2018,5(6):4380-4391.
[57] 杨丽,冯娟,卢秀丽,等.基于物联网智能家居安全监控系统设计[J/OL].现代电子技术,2019-02-21.http://kns.cnki.net/kcms/detail/61.1224.tn.20190220.1647.036.html.YANG Li,FENG Juan,LU Xiuli,et al.Design of intelligent home safety monitoring system based on Internet of Things[J/OL].Modern Electronics Technique,2019-02-21.http://kns.cnki.net/kcms/detail/61.1224.tn.20190220.1647.036.html.
[58] YASSINE A,SINGH S,HOSSAIN S.M,et al.IoT big data analytics for smart homes with fog and cloud computing[J/OL].Future Generation Computer Systems,2018,https://doi.org/10.1016/j.future.2018.08.040.
[59] LIN Y H.Design and implementation of an IoT-oriented energy management system based on non-intrusive and self-organizing neuro-fuzzy classification as an electrical energy audit in smart homes[J].Applied Sciences,2018,8(12):2337,https://doi.org/10.3390/app8122337.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |