基于土壤墒情的联栋大棚智能灌溉系统的设计
发布时间:2018-10-31 09:49
【摘要】:为改善农业大棚土壤墒情的粗放式管理,设计了一种基于ZigBee技术的联栋大棚智能灌溉系统。系统由终端数据采集控制模块、ZigBee无线网络传输系统、PC机管理系统和手机APP移动终端组成。该系统可使管理人员在办公室PC机上或在手机APP上远程查看大棚内的土壤湿度和温度数据,PC机对测得的数据进行融合判断,实现自动或手动控制棚内滴灌灌溉,从而实现农业的科学化、自动化和精细化的管理。为提高系统的稳定性,对无线网络的组网方式进行了重点的讨论。该系统在近13.33hm2的联栋葡萄大棚现场测试表明,系统的稳定性好,功能满足设计要求,具有很好的应用前景和推广价值。
[Abstract]:In order to improve the extensive management of soil moisture in agricultural greenhouse, an intelligent irrigation system based on ZigBee technology was designed. The system consists of terminal data acquisition and control module, ZigBee wireless network transmission system, PC computer management system and mobile terminal of mobile phone APP. The system enables managers to remotely view the soil moisture and temperature data in the greenhouse on the PC computer in the office or on the APP on the mobile phone. The PC machine can fuse and judge the measured data and realize automatic or manual control of drip irrigation in the shed. In order to achieve scientific agriculture, automation and fine management. In order to improve the stability of the system, the networking mode of wireless network is discussed in detail. The field test of the system in the United Grape shed near 13.33hm2 shows that the system has good stability and functions to meet the design requirements and has a good application prospect and popularization value.
【作者单位】: 山东科技大学机械电子工程学院;
【分类号】:S274;TN92;TP311.56
,
本文编号:2301725
[Abstract]:In order to improve the extensive management of soil moisture in agricultural greenhouse, an intelligent irrigation system based on ZigBee technology was designed. The system consists of terminal data acquisition and control module, ZigBee wireless network transmission system, PC computer management system and mobile terminal of mobile phone APP. The system enables managers to remotely view the soil moisture and temperature data in the greenhouse on the PC computer in the office or on the APP on the mobile phone. The PC machine can fuse and judge the measured data and realize automatic or manual control of drip irrigation in the shed. In order to achieve scientific agriculture, automation and fine management. In order to improve the stability of the system, the networking mode of wireless network is discussed in detail. The field test of the system in the United Grape shed near 13.33hm2 shows that the system has good stability and functions to meet the design requirements and has a good application prospect and popularization value.
【作者单位】: 山东科技大学机械电子工程学院;
【分类号】:S274;TN92;TP311.56
,
本文编号:2301725
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