雷建云,韩峥嵘,曾繁迪,刘晶,帖军.基于ZigBee的低功耗蔬菜大棚远程无线传感测控系统[J].中南民族大学学报自然科学版,2019,38(1):131-137
基于ZigBee的低功耗蔬菜大棚远程无线传感测控系统
Remote wireless sensor measurement and control system of low power consumptionvegetable greenhouse based on ZigBee
  
DOI:10.12130/znmdzk.20190123
中文关键词: 智能蔬菜大棚  无线传感器网络  低功耗  微信公众号
英文关键词: smart vegetable greenhouse  wireless sensor network  low power consumption  WeChat official account
基金项目:国家科技支撑计划项目子课题(2015BAD29B01);农业部软科学研究课题(D201721);湖北省自然科学基金资助项目(2017CFC886);中央高校基本科研业务费专项资金资助项目(CZY18015)
作者单位
雷建云,韩峥嵘,曾繁迪,刘晶,帖军 中南民族大学 计算机科学学院武汉 430074 
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中文摘要:
      针对现有的智能蔬菜大棚造价成本高,设备电池使用寿命短,远程自动化控制程度较低等问题,基于ZigBee无线传感器网络,对现有的蔬菜大棚进行智能化改造,设计了一套集低功耗数据监测采集、自动灌溉于一体的远程设备监控系统。系统经过联调测试,终端节点的休眠功耗达到了μA级别,解决了设备电池使用寿命短的问题,达到了延长设备使用寿命的要求;系统与微信公众号结合实现了远程监控的功能,在微信公众号可以实时查看监测数据,远程控制设备,解决了传统的智能蔬菜大棚远程自动化控制程度低的问题。与传统系统相比实现了超低功耗运行,为蔬菜大棚的可感知智能控制提供了新的技术手段。
英文摘要:
      Aiming at the problems of high cost of existing intelligent vegetable greenhouses, short battery life of equipment, and low ability of remote automation control, based on ZigBee wireless sensor network, intelligently transform existing vegetable greenhouses and design a set of low-power remote equipment monitoring system that consumes data monitoring and collection and automatic irrigation. After the system is tested by joint debugging, the sleep power consumption of the terminal node reaches the μA level, which solves the problem of short battery life of the device and meets the requirements for extending the service life of the device. The system and the WeChat public number combine to realize the function of remote monitoring. WeChat public number can view monitoring data in real time, remote control equipment, and solve the problem of low degree of remote automation control of traditional intelligent vegetable greenhouses. Compared with the traditional system, it achieves ultra-low power operation and provides new technical means for the intelligent control of vegetable greenhouses.
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