Green House Monitoring and Control System Using IoT

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Presentation on Green House Monitoring and Control System Using IoT

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Added: Feb 19, 2024

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A Presentation on Greenhouse Monitoring and Control System Using IOT

INTRODUCTION: A green house is where plants such as flowers and vegetables are grown. Greenhouses warmup during the day when sun-rays penetrates through it, which heats the plant,soil and structure. Green houses help to protect crops from many diseases, particularly those that are soil borne and splash onto plants in the rain. This project demonstrates the design and implementation of a various sensors for greenhouse environment monitoring and controlling.

Block Diagram

Components Used At mega Controller
WIFI
Moisture Sensor
Light Sensor
Temperature Sensor
LCD
DC FAN
AC Pump
Resistors Capacitors Transistors Cables and Connectors Diodes
PCB and Breadboards
LED
Transformer/Adapter
Push Buttons
Switch
IC
IC Sockets

Working Principle A greenhouse system in which there are four sensors. These sensors act as input to the micro controller system. The input feed provided to the micro controller is in the form of analog data. This data is converted by the controller into digital format. The data is shown on the LCD display and also on the android phone via Bluetooth.

Cont.... Thus the monitoring of temperature, moisture and other parameters is done automatically.
Once the parameter values are monitored they can be controlled by the embedded system which is built with coding. This is automating controlling system. The android phone is operated by the user. The android application is used for controlling as per the user knowledge and required output.

Cont.... This greenhouse control system is powered by Atmega328 microcontroller it consists of temperature sensor, light sensor, soil moisture sensor, LDR sensor, LCD display module, 12v DC fan, Bulb and pump. Temperature sensor, senses the level of temperature., if it goes high DC fans gets on and when the temperature goes low the fan gets off. Soil moisture sensor, senses the water level as the level decreases the pumps gets on. In the absence of light, the LDR sensor senses and the bulb starts glowing. By this way it will become easy to monitor and control the system.

Applications A versatile wireless sensor system can help you monitor and control many parameters of greenhouse conditions and environments. You can measure critical conditions such as
Temperature,
humidity,
light, air quality, soil moisture, irrigation water leaks, fan failure, HVAC system performance, and more.

Advantages One of the primary benefits of IoT -driven greenhouse monitoring is the ability to collect real-time data on crucial environmental parameters. Sensors can be deployed throughout the greenhouse to measure variables such as temperature, humidity, light levels, soil moisture, and CO2 concentration.

Green House Monitoring and Control System Using IoT

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