International Research Journal of Engineering and Technology (IRJET)
e-ISSN: 2395-0056
Volume: 06 Issue: 04 | Apr 2019
p-ISSN: 2395-0072
www.irjet.net
IoT Based Real Time Greenhouse monitoring system using Raspberry Pi Miss. Aishwarya Kore1, Dr. Deepak Kadam2 1Dept 2Associate
of Electronics and Telecommunication Engineering
Professor, Dept of Electronics and Telecommunication Engineering 1, 2PVPIT,
Budhgaon, Sangli , Maharashtra, India
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Abstract: Raspberry pi is useful for small application
turbidity, etc at different locations. The sensor nodes can transmit the data detected by their own sensor and can also pass the data to adjacent nodes. The data can be detected by the sensor nodes and can be transmitted to the base station. After that the data is transmitted to the end user by external network. It can also send command of end user to the network node. The Internet of Things is a vision of a world in which most objects are connected, transmitting updates about their performance so the people who use them to do the things more intelligently. This vision is being built today, with connected devices becoming more and more frequent in our daily lives. The basic concept behind the internet of things is that virtually every physical thing in this world can also become a computer that is connected to internet.
developmen. This proposed work is a stepping stone to introduce the various features and possibilities available in the raspberry pi and opens up an avenue for researches who wish to embark into these new inventions. Raspberry pi can also be used as an educational tool as it comes with scratch as an animation tool for young learners. The system gives real time remote monitoring system using Raspberry Pi which enables the user to track the different parameters in green house remotely for improving plant growth. The data storage in the database on the cloud for future use in any internet enabled device. This facilitates us to take right decisions at right time to obtain desired results in plant growth. Index Terms - Green house, Raspberry-pi, IOT, sensors.
2. LITERATURE REVIEW
1. INTRODUCTION
Ravi Kishore Kodali, Vishal Jain and Sumit Karagwal[1] developed a monitoring and control system for greenhouse through Internet of Things (IOT). The system will monitor the various environmental conditions such as humidity, soil moisture, temperature, presence of fire, etc. This work is primarily about the improvement of current agricultural practices by using modern technologies for better yield. This work provides a model of a smart greenhouse, which helps the farmers to carry out the work in a farm automatically without the use of much manual inspection. Sheetal Vatari; Aarti Bakshi; Tanvi Thakur, suggested Green house by using IOT and cloud computing[2]. There are many techniques available for the precision agriculture to monitor and control, environment for the growth of many crops. Green House is the best solution to control and manage all this problems. It is more important to search a method that gives perfect analyzation and controlling to develop proper environment. This environment builds up by using two technologies IoT and cloud computing. By using IOT we control devices or any environmental needs anytime, anywhere and the cloud which provides storage and computing resources to implement a webpage. Akshay D. Deshmukh; Ulhas B. Shinde[3]
Greenhouses are frames of inflated structure covered with a transparent material in which crops are grown under controlled environment conditions such as surrounding temperature, humidity, nutrient, soil moisture, etc. The environment inside the greenhouse will affect the quality of the plants. As a result, it is important to maintain the parameter such as temperature, light, humidity, and soil moisture. Climate control requires real-time precise measurement. A Raspberry Pi is a credit card-sized computer. It is small size and accessible price. The Raspberry Pi is slower than a modern laptop or desktop but is still a complete Linux computer and can provide all the expected abilities that implies, at a low-power consumption level. One advantage of using the Raspberry Pi over some other alternatives is the size of the community. Other peripherals can be attached through the various pins and connectors on the surface of the Raspberry Pi. Wireless sensor network technology has been emerging as a feasible solution to many innovate applications. WSN is a low cost wireless network made up of thousands of small sensor nodes which monitor physical or environmental conditions, such as temperature, humidity, soil moisture,
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