电动汽车充电桩移动监控与故障诊断系统设计
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摘要
针对电动汽车充电桩在设备监控、管理以及故障维修等方面存在的问题,设计了一套电动汽车充电桩设备的移动监控与故障诊断系统。该系统由服务端和移动端组成,服务端基于Web Service平台开发,为移动端提供大数据交互,同时采用故障树方法对充电桩的故障进行分析诊断。移动端基于Android设计,为充电桩提供移动监控功能,并进行故障处理。系统提高了充电桩维护的工作效率。
In view of the problems existing in the monitoring,management and fault maintenance of electric vehicle charging pile,a mobile monitoring and fault diagnosis system for electric vehicle charging pile equipment is designed in this paper.The system is composed of server and mobile terminal.The server is developed on the basis of Web Service platform,providing large data interaction for mobile terminals,and using fault tree method to analyze and diagnose the failure of charging piles.The mobile terminal is based on the Android to design the mobile monitoring function for the charging pile and to handle the fault.The system improves the working efficiency of the maintenance of the charging pile.
In view of the problems existing in the monitoring,management and fault maintenance of electric vehicle charging pile,a mobile monitoring and fault diagnosis system for electric vehicle charging pile equipment is designed in this paper.The system is composed of server and mobile terminal.The server is developed on the basis of Web Service platform,providing large data interaction for mobile terminals,and using fault tree method to analyze and diagnose the failure of charging piles.The mobile terminal is based on the Android to design the mobile monitoring function for the charging pile and to handle the fault.The system improves the working efficiency of the maintenance of the charging pile.
引文
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[2]刘卓然,陈健,林凯,等.国内外电动汽车发展现状与趋势[J].电力建设,2015,36(7):25-32.LIU Zhuoran,CHEN Jian,LIN Kai,et al.Domestic and foreign present situation and the tendency of electric vehicles[J].Electric Power Construction,2015,36(7):25-32.
[3]李洪峰,李红霞,陈志刚,等.一种新型电动汽车充电桩技术方案探讨[J].电力系统保护与控制,2017,45(6):142-147.LI Hongfeng,LI Hongxia,CHEN Zhigang,et al.Discussion on technology scheme of a new EV charging pile[J].Power System Protection and Control,2017,45(6):142-147.
[4]张帝,姜久春,张维戈,等.电动出租车充电桩优化配置[J].电工技术学报,2015,30(18):181-188.ZHANG Di,JIANG Jiuchun,ZHANG Weige,et al.Optimal configuration of charging spots for electric taxis[J].Transactions of China Electrotechnical Society,2015,30(18):181-188.
[5]RUIJTERS E,STOELINGA M.Fault tree analysis:A survey of the state-of-the-art in modeling,analysis and tools[J].Computer Science Review,2015,15/16(3):29-62.
[6]DING X,HUANG Q,ZHU H,et al.Subway tunnel disease associations mining based on fault tree analysis algorithm[J].Mathematical Problems in Engineering,2017,2017(1):1-7.
[7]CHEN Y,ZHEN Z,YU H,et al.Application of fault tree analysis and fuzzy neural networks to fault diagnosis in the internet of things(IoT)for aquaculture[J].Sensors,2017,17(1):153.
[8]黄鸣宇,魏欧,胡军.基于故障配置的故障树生成[J].计算机科学,2017,44(2):182-191.HUANG Mingyu,WEI Ou,HU Jun.Fault tree generation based on fault configuration[J].Computer Science,2017,44(2):182-191.
[9]LI P,YUAN H,LAN J,et al.Dynamic fault tree analysis using sequential binary decision diagrams[J].Journal of Beijing U-niversity of Aeronautics and Astronautics,2017,43(1):167-175.
[10]LING M.Enhanced component connection method and application for conversion of fault trees to binary decision[J].Systems Engineering and Electronics,2016,2016(7):1600-1605.
[11]高德欣,刘芳,张如耀.基于Android的轮胎模具仓库温湿度无线监控系统设计[J].自动化与仪表,2016,31(4):30-33.GAO Dexin,LIU Fang,ZHANG Ruyao.Design of the temperature and humidity wireless monitoring system in tire mold warehouse based on Android[J].Automation and Instrumentation,2016,31(4):30-33.