International Research Journal of Engineering and Technology (IRJET)
e-ISSN: 2395-0056
Volume: 09 Issue: 09 | Sep 2022
p-ISSN: 2395-0072
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Arduino Based Green House Monitoring and Parameter Controlling System Prashant Pal1, Shashank Kumar Singh2, Pawan Kumar Patel3, Surya Charan Paidipalli V V4, Shweta Navgire5, Yogini Shinde6 Prashant Pal, Scientist B, National Institute of Electronics & Information Technology, Aurangabad, Maharashtra, India Shashank Kumar Singh, Scientist B, National Institute of Electronics & Information Technology, Aurangabad, Maharashtra, India Pawan Kumar Patel, STA, National Institute of Electronics & Information Technology, Aurangabad, Maharashtra, India Surya Charan Paidipalli V V, STA, National Institute of Electronics & Information Technology, Aurangabad, Maharashtra, India Shweta Navgire, B.Tech (ESE), National Institute of Electronics and Information Technology, Aurangabad, Maharashtra, India Yogini Shinde, B.Tech (ESE), National Institute of Electronics and Information Technology, Aurangabad, Maharashtra, India ---------------------------------------------------------------------***--------------------------------------------------------------------certain amount of light. Lack of light can interfere with Abstract- Three sensors are used in an IOT-based
crops growing properly. The farmers must simultaneously turn on and off the water pump, light supply, fan, etc. to avoid all of these occurrences. Farmers may experience difficulty in such circumstances. This system was created to make farming easier. The farmer is not required to follow all of these items. The farmer's mobile device will receive all of the sensor data. This system reduces the need for labor force. This technology will assist farmers in conducting large-scale plantations with fewer laborers. The soil moisture sensor is a sensor that changes its value when it comes into touch with moisture. Essentially, it is a resistor that operates under moist conditions. When the moisture content is high, the resistance value is low, and when the moisture content is low, the resistance value is high. We used to be concerned about our plants whenever we went out of town for a few days because they require frequent watering. This device automatically waters your plants and keeps you informed by sending text messages to your cell phone. This is a completely automated system, and no human intervention is required to operate it. A greenhouse is a closed structure intended to protect plants from external elements such as climatic conditions, pollution, and so on. It ensures that the plants develop in a sustainable and effective manner throughout the year. Sunlight, temperature, and humidity are all important elements in plant growth. An article on the automated water delivery system for urban residential areas demonstrated that their method may be utilized to manage water resources effectively. Because required physical parameters are difficult to control manually inside a greenhouse, an automated system is required. Many smart irrigation systems have been proposed and
greenhouse environment monitoring and control project to measure the greenhouse's temperature, light levels, and humidity. The temperature within the greenhouse is measured using a temperature sensor. The microcontroller receives a reading from the sensor. Relays are connected to the microcontroller in several ways. One of the relays has a bulb attached to it. The microcontroller will transmit signals to turn ON the Fan depending on whether the temperature is above or below the threshold value. A light sensor is used to gauge how much sunshine is present inside the greenhouse. The microcontroller receives a reading from the sensor. The microprocessor would send signals to switch on the relay, creating a "shade" in real-time whenever sunlight exceeded the threshold value. The IOT module receives data on these parameters at the same time (ESP8266). No matter whether a threshold mismatch is discovered, the data is relayed to the IOT at regular intervals. A chip called ESP8266 is used to link microcontrollers to Wi-Fi networks, establish TCP/IP connections, and deliver data. These sensors collect data, which is then transmitted to the IOT. The Wi-Fi module must be linked to a hotspot or Wi-Fi zone in order to complete this project. Key Words: Green house, IoT, ET. 1. INTRODUCTION Agricultural practices are not favored by abrupt changes in the weather. Rain that isn't expected can ruin the crops. Or, less rain could cause the crops to dry up. For crops, high temperatures are bad. Some crops even demand
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