Portable wireless node design for smart agricultural system based on Internet of Things

Adnan Rafi Al Tahtawi, Erick Andika, Wildan Nurfauzan Harjanto
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引用次数: 1

Abstract

This paper presents a pair of portable wireless nodes for a smart agricultural system to control and monitor the agricultural parameters based on Internet of Things (IoT). This system utilizes low-cost wireless communication through an nRF24L01 module between the sensor node and the controller node. The sensor node is placed on the agricultural area with a Li-Ion battery as a power supply, while the controller node is placed at the control and monitoring station. On the sensor node, there is a YL-69 soil moisture sensor and DS18B20 temperature sensor, while in the controller node there is a relay that can set watering on/off condition. In the controller node, there is also an ESP8266 WiFi module that serves to send data to the internet cloud for user monitoring. Both hardware nodes are built in small and portable size. The experimental result shows that the sensor node can transmit soil moisture and temperature data via RF wireless communication to the controller node. Watering is done automatically based on the condition of sensor values. In addition, this system can also be monitored through a website interface, so the users can easily find out the condition of their plant as long as there is internet access.
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基于物联网的智能农业系统便携式无线节点设计
本文提出了一对用于智能农业系统的便携式无线节点,用于基于物联网(IoT)的农业参数控制和监测。该系统通过传感器节点和控制器节点之间的nRF24L01模块利用低成本无线通信。传感器节点放置在农业区,以锂离子电池为电源,控制器节点放置在控制和监测站。在传感器节点上,有一个YL-69土壤湿度传感器和DS18B20温度传感器,而在控制器节点上有一个继电器,可以设置浇水开/关条件。在控制器节点中,还有一个ESP8266 WiFi模块,用于向互联网云发送数据以供用户监控。这两个硬件节点都是以小巧便携的尺寸构建的。实验结果表明,传感器节点可以通过射频无线通信将土壤湿度和温度数据传输到控制器节点。浇水是根据传感器值的条件自动完成的。此外,该系统还可以通过网站界面进行监控,因此只要有互联网接入,用户就可以很容易地了解工厂的状况。
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