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机构地区:[1]郑州航空工业管理学院计算机科学与应用系,郑州450015
出 处:《湖北农业科学》2014年第15期3650-3654,3658,共6页Hubei Agricultural Sciences
基 金:国家自然科学基金项目(41001235);河南省科技厅科技攻关项目(122102110208);河南省教育厅科学技术研究重点项目(12B520061)
摘 要:针对农业大棚作物生长环境参数精确控制和信息化管理的需求,基于SSH框架和模糊控制,设计并实现了精准农业大棚智能监控平台。采用B/S体系结构模型,设计了系统框架,采用Socket和多线程技术,实现了与多个大棚的数据通信。提出了一种基于温度、湿度、CO2浓度和光照度4个参数的模糊控制器,实现大棚内环境参数的自动调节。试验结果表明,温度、湿度、CO2浓度、光照度的变化均控制在合适的范围内,保证了作物的生长环境需求。平台运行稳定,执行设备控制响应时间在800 ms以内,采集时间在300 ms以内,具有一定的实用性、安全性和可维护性,有效实现了农业大棚环境参数的精准控制和远程操作,为精准农业实施提供了保障。Based on crop growth environment and information management need of the agriculture greenhouse, an intelligent monitoring platform of precision agriculture greenhouse based on SSH and fuzzy control was designed. Based on B/S system structure model, in which socket and multithread technologies were used to realize data communication with a plurality of greenhouse. Based on the temperature, humidity, light intensity, CO2 concentration a fuzzy controller was proposed to automatically adjust the greenhouse crop growth environment. Results showed that temperature variation, humidity, CO2 concentration and light intensity was controlled in a reasonable range, ensuring a better environment for the growth of crops. Platform had good interactivity and stability. Equipment control response time was within 800 ms. The acquisition time was within 300 ms. Platform had a certain practicality, safety and maintainability. The precise control and remote operation of agricultural greenhouse were realized. It will provid guarantee for precision agriculture.
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