This project will propose a greenhouse environment control algorithm and establish a greenhouse network environment automatic control model. Because the basis of simulation, a scheme combining remote automatic control and manual control of the greenhouse was determined, and a greenhouse intelligent control system based on Arduino was designed. The system includes hardware parts such as sensors, wireless communication and transmission, drive interfaces, and software parts such as intelligent control algorithms, data processing and drive control. The system uses the Internet of Things technology to transmit data to the control center. Using the Arduino and Android platforms, the mobile phone can be used to monitor the environmental variables in the greenhouse in real time and networked, and to remotely control the environment in the greenhouse. The main functions are automatic watering and temperature control. Humidification, ventilation, etc.
项目组人员:万子煜 2016级通信工程专业
曹铸鹂 2016级通信工程专业
宋云凯 2016级通信工程专业
项目指导教师:魏学业
项目级别:北京市级
项目简介:
本项目将提出一种温室环境控制算法,建立一种温室网络化环境自动控制模型。在仿真基础上,确定一种温室远程自动控制和手动控制相结合的方案,设计一种以Arduino为主的温室智能控制系统。该系统包括传感器、无线通信与传输、驱动接口等硬件部分和智能控制算法、数据处理和驱动控制等软件部分。系统利用物联网技术将数据传输到控制中心,利用Arduino和Android平台,可用手机对温室内环境变量进行实时、网络化监控,对温室内环境进行远程控制,主要功能有自动浇水,控温,加湿,通风等。
项目创新点:
依据温室的环境,提出一种温室自动控制算法;建立一种温室网络化环境自动控制模型;利用arduino和andriod平台,采用移动设备对温室进行实时、网络化监控。
项目成果: 实物作品
建立一种温室网络化环境自动控制模型,完成一种基于arduino的智能温室无线网络控制系统样机。
