Using LoRa technology for agricultural monitoring system

Abstract

For this project, we are using Technology called LoRa. By using LoRa technology we are going to monitor the agriculture. This is called the Agricultural Monitoring. The process of Monitoring the agriculture parameters by using the technical knowledge is called the smart agriculture. By following the smart agriculture we can minimize the time and effort. Along with that the maximize yield and minimize the expenses. The population is increasing day by day,but we are running out of time. Because of this reason Iot comes in to picture. By using the smart Agriculture, we can work on irrigation, Automation and Implementation. The research begins by contrasting WiFi and LoRa as wireless technologies. Data wireless technology that can used by smart devices transmittance End-devices for the Internet of Things (IoT) used in these definitions have strong demands for battery conservation, and as a result. It is recommended to use low-power modules. The emphasis of this paper is on rescue. The current study's monitoring and aim is the use of the IoT data is distributed using two wireless technologies. Devices the well-known WiFi and the soon-to-be-released LoRa science and technology. To link the end-devices in our scenarios to the Internet, we use a LoRa-based gateway and a WiFi router. The data collected on the server application from sensors mounted on IoT modules can be viewed by approved users via a web or mobile application. This survey helps a more better to environment for rescue concepts, which involves all of the hardware and software as well as the LoRa technologies used for transmission. The scenario is implemented using two FiPy development boards for the nano-Gateway and end-node. Since energy consumption and battery life will be the subject of future studies, both devices are connected via USB cables rather than battery support for the current study. After successfully connecting to the LoRa nano-gateway, the end device captures the current location and temperature and posts them to the connected UDP stream at predefined time intervals. For testing purposes, indoor experiments were conducted to ensure the network's stability.