Description:

  • The “Smart Irrigation System Using Raspberry Pi and MQTT Application to Monitor Soil Moisture Level, Rain Status, and Humidity Value on Mobile App and Control Water Pump” project focuses on creating an intelligent irrigation system that utilizes a Raspberry Pi, MQTT (Message Queuing Telemetry Transport) protocol, and a mobile application to monitor and control various parameters for efficient irrigation management.
  • The project incorporates sensors such as soil moisture sensors, rain sensors, and humidity sensors to gather data on soil moisture levels, rain status, and humidity values. The Raspberry Pi acts as the central control unit, collecting the sensor data and processing it in real-time.
  • By leveraging the MQTT protocol, the project establishes a communication channel between the Raspberry Pi and a mobile application. This allows users to remotely monitor the soil moisture levels, rain status, and humidity values through the mobile app, providing real-time updates and notifications.
  • Additionally, the system enables users to control the water pump remotely through the mobile app based on the collected sensor data. This ensures precise and efficient water distribution in the irrigation system, conserving water resources and optimizing plant growth.
  • The project’s integration of the Raspberry Pi, MQTT protocol, and mobile app provides a user-friendly and convenient solution for monitoring and managing irrigation parameters. Users can make informed decisions about irrigation schedules and water pump control, leading to improved crop yields and water conservation.
  • In conclusion, the “Smart Irrigation System Using Raspberry Pi and MQTT Application to Monitor Soil Moisture Level, Rain Status, and Humidity Value on Mobile App and Control Water Pump” project offers an intelligent irrigation management solution. By combining Raspberry Pi, MQTT protocol, and a mobile application, it provides real-time monitoring and control of critical irrigation parameters, enhancing water efficiency and crop productivity.
YOU CAN PURCHASE COMPONENTS REQUIRE FOR THIS PROJECT FROM BELOW LINK:

Project Code:

  • Download project code from below button.
  • If you want to understand code explanations then please watch YouTube video.
Download Code

YouTube Video :

  • If you want to understand how to connect hardware with Arduino Uno,
  • And Program explanation for this project,
  • And how to do this project by yourself then please watch our YouTube video

Purchase Readymade Project:

  •  If you want to purchase a readymade project from Mytrained.com then contact us on whatsapp. 
  • We do not encourage any student to purchase a readymade project from us. Our mission is to give complete knowledge free of cost.
  • So from our end we already provide code and detailed steps to create this project by yourself in our YouTube video.
  • So if you want to save your money then watch our video and follow the steps that are mentioned in the video.
  • Once you purchase a project then it will take at least 1 month to design your project.
  • You have to pay the complete project cost while placing the purchase order.
  • no refund no exchange policy

Leave a Reply

Your email address will not be published. Required fields are marked *