The aim of this project is to improve agricultural practices by using technology to monitor and manage various aspects of farming. This includes tracking environmental conditions, resource utilization, and crop health to enhance productivity, reduce waste, and promote sustainability in agriculture.
2. ❑ Aim and Objective
❑ Literature Review
❑ Problem Statement
❑ Block Diagram
❑ Benefits For Society
❑ Conclusion
❑ References
2
Content
3. ❑ Aim:
The aim of this project is to improve agricultural practices by using technology to monitor and manage various
aspects of farming. This includes tracking environmental conditions, resource utilization, and crop health to
enhance productivity, reduce waste, and promote sustainability in agriculture.
❑ Objective:
The objective of this project is to monitoring the crop field with the help of sensors (light, humidity,
temperature, soil moisture, crop health, etc.) and automating the irrigation system. The farmers can monitor the
field conditions from anywhere.
3
Aim and Objective
4. Karan Kansara, Vishal Zaveri, Shreyans Shah, Sandip Delwadkar and Kaushal Jani was propsed in Sensor
based Automated Irrigation System with IOT mentioned about using sensor based irrigation in which the
irrigation will take place whenever there is a change in temperature and humidity of the surroundings
P.Lashitha Vishnu Priya ,N.Sai Harshith ,Dr. N. V. K. Ramesh explains about the Smart Agriculture
Monitoring System using IOT. The implemented framework comprises of different sensors and de-vices
and they are interconnected by means of remote correspondence modules. The sensor data is been sent and
received from client end utilizing Internet connectivity which was enabled in the Node MCU the same
time. dule- an open source IOT platform.
Ramya Venkatesan and Anandhi Tamilvanan explains about a Sustainable Agriculture System Using IOT.
This work developed a system a system which will automatically monitor the agriculture fields.The
agriculture fields are monitored for environmental temperature, humidity at soil moisture sensor. IOT and
wireless sensor node helps to decrease the efforts, for observing the agricultural fields. 4
Literature Review
5. In today's agriculture, farmers struggle with constantly changing
environmental conditions, resource constraints, and the need to maximize
crop yield. Real-time insights and control are essential to address these
challenges.
Our project seeks to develop an IoT-based system that can provide instant
data and control to farmers, enabling them to make informed decisions and
optimize their agricultural operations in response to dynamic conditions.
5
Problem Statement
6. 6
Project Block Diagram
Block Diagram :
Figure: IOT based smart agriculture monitoring and controling
Node MCU
Humidity
sensor
Temperature
sensor
PH sensor
Soil Moisture
Siren
Pump Motor
Water level
7. 7
Component Details
Input Devices: Temperature sensor, soil moisture, PH sensor, Humidity sensor
Output Devices: Pump motor ,water level, siren
Hardware Tools: NodeMCU
Software Tools: Arduino IDE
8. 8
Benefit For Society
• Remote Farm Monitoring
• Enhanced Crop Quality
• Data-driven Decision Making
9. 9
Conclusion
IoT-based smart agriculture system with NodeMCU offers real-time data and remote control,
revolutionizing farming for increased productivity and sustainability. Using IoT the system can predict the
soil moisture level and humidity so that the irrigation system can be monitored and controlled.IoT works in
different domains of farming to improve time efficiency, water management, soil management.
10. 10
References
Ramya Venkatesan and Anandhi Tamilvanan, “A Sustainab Agriculture System Using IOT”, International
Conference on Communication and signal processing, April 6-8,2017.
Smart Agriculture Monitoring System Using Iot Assistant Professor D. Betteena Sheryl Fernando, UG
Students M. Sabarishwaran, R. Ramya Priya, S. Santhoshini, May 2022
Karan Kansara and “IOT based Smart Irrigation System “ International Journal of Computer Applications ,
February 2017.