greenhousemonitoring using Arduino g.pptx
core4techsolutions
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Mar 12, 2025
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greenhousemonitoring using Arduino g.pptx
Slide Content
KSHATRIYA COLLEGE OF ENGINEERING 1 DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
A Presentation on Greenhouse Monitoring Using IOT Submitted by: THUNGENA VAISHNAVI 22379-EC-011 SATHEGAR VARALAXMI 22379-EC-014 SABBANI VAISHNAVI 22379-EC-022 GODIKE LAHARI 22379-EC-023
INTRODUCTION: A green house is where exotic plants, 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.
Block Diagram
Components Used ESP 8266 Node MCU Light Sensor (LDR Module) DHT11 (Temperature & Humidity Sensor) 16x2 LCD Rain Sensor Module Thingspeak IoT Platform
ESP 8266 Node MCU ESP NodeMCU is an open-source firmware and development board for the ESP8266 Wi-Fi system-on-a-chip ( SoC ). It's a popular choice for Internet of Things ( IoT ) projects.
DH T 11 The DHT11 is a low-cost sensor that measures temperature and humidity . It uses a thermistor and a capacitive humidity sensor to measure the air around it.
LDR Module A light-dependent resistor (LDR) sensor is a passive electronic component that detects light and changes its resistance based on the amount of light.
Rain sensor Module The Raindrops Detection sensor module is used for rain detection. It is also for measuring rainfall intensity. Rain sensor can be used for all kinds of weather monitoring
Thingspeak Iot Platform ThingSpeak is an open-source software written in Ruby which allows users to communicate with internet enabled devices. It facilitates data access, retrieval and logging of data by providing an API to both the devices and social network websites.
Working Principle A greenhouse system in which there are three sensors. These sensors act as input to the ESP Node MCU. The input feed provided to the MCU is in the form of analog data. The data is shown on the LCD display will be sent to cloud via WIFI. On Thingspeak cloud we can Monitor and analyze the data.
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 intensity and more.
Temperature,
humidity, light intensity 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. W e can analyze days/months of data for further improvements in Greenhouse.
Thank You
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