Smart Farming System

Project Title

Smart Farming System

Project Area of Specialization Internet of ThingsProject Summary

Our project shows the use of soil moisture sensors that helps the user to monitor, control and keep records about the
changes in soil moisture. Using the Arduino Uno R3, LM35, moisture sensor, humidity sensor, temperature is
measured, controlled and analysed. The soil moisture sensor for a certain duration, provides information related to the
moisture status of the soil. The Arduino Uno R3 will collect and process the data received from the Sensors. When a
threshold moisture level of the soil is reached, the water will supply accordingly. This is essential because water must
be provided to the plant at a particular time for a good yield. This project is highly used for farmers, Nursery
professionals by eliminating traditional or manual method of irrigation system.

Project Objectives

• Create a plant communicator device based on Arduino, Moisture, Temperature and 

• light sensor

• Use Arduino IDE for coding in Arduino devices and various dependencies.

• Proper research for Arduino device and its circuit.

• Proper circuit design for the project.

• Proper testing and debugging of the device configuration.

• Create a proper prototype of Plant Communicator.

• Conducting a survey regarding the project.

• Provide the proper value of Moisture, Temperature and Light. 

• Research on various similar systems.

• To design a new infrastructure of irrigation methods.

• To develop an irrigation system for the farmer to monitor their plant or field.

• To test the functionality of this project by implementing it in suitable condition

Project Implementation Method

Hardware :

Arduino UNO R3, LM35, soil moisture sensor, power supply, LCD display, relay coil, A.C motor pump, GPRS module / GSM, humidity sensor.  

Softwares:

MySql, Flutter, Php, html, css, javascript, bootstrap.

Benefits of the Project

The manual method has lots of drawbacks and is quite unreliable for irrigation of big areas. Irrigation has direct  impact on cost and production of the final product. This system aims to eradicate the tractional manual method of irrigation which needs to be improved over time. The main aim of this project is to create plant communicator device based on Arduino which help us to monitor moisture, temperature, light and irrigate if the moisture level is below.

 

The manual method has lots of drawbacks and is quite unreliable for irrigation of big areas. Irrigation has direct

 impact on cost and production of the final product. This system aims to eradicate the tractional manual

method of irrigation which needs to be improved over time. The main aim of this project is to create plant communicator device based on Arduino which help us to monitor moisture, temperature, light and irrigate if the moisture level is below.

Technical Details of Final Deliverable

This system that we designed will completely eliminate the stress of manual Labour.

Water motor will automatically turn on when the field is dry and will automatically turned off when reach the required level of moisture. 

 

Fan will automatically turn on when the temperature is high and will automatically turned off when reach the required level of temperature. (For indoor farming)

Also user will get the notification of each action on email or message.

Weather forecast of upcoming week

Final Deliverable of the Project Hardware SystemCore Industry AgricultureOther Industries Energy , Manufacturing Core Technology Internet of Things (IoT)Other Technologies RoboticsSustainable Development Goals Decent Work and Economic Growth, Industry, Innovation and InfrastructureRequired Resources

Elapsed time in (days or weeks or month or quarter) since start of the project	Milestone	Deliverable
Month 2	initial prototyping	initial prototyping, enviorinment setup