This paper is published in Volume 3, Issue 3, 2018
Area
Internet of Things
Author
Swathi. N S
Co-authors
Dr. K. Deeba
Org/Univ
Hindusthan College of Engineering and Technology Coimbatore, Tamil Nadu, India
Keywords
IOT, Wireless Sensor Network, PIC, GSM, WIFI and Automatic Irrigation
Citations
IEEE
Swathi. N S, Dr. K. Deeba. Automated Control of Irrigation in Agriculture Using IOT and Wireless Sensor Networks, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARnD.com.
APA
Swathi. N S, Dr. K. Deeba (2018). Automated Control of Irrigation in Agriculture Using IOT and Wireless Sensor Networks. International Journal of Advance Research, Ideas and Innovations in Technology, 3(3) www.IJARnD.com.
MLA
Swathi. N S, Dr. K. Deeba. "Automated Control of Irrigation in Agriculture Using IOT and Wireless Sensor Networks." International Journal of Advance Research, Ideas and Innovations in Technology 3.3 (2018). www.IJARnD.com.
Swathi. N S, Dr. K. Deeba. Automated Control of Irrigation in Agriculture Using IOT and Wireless Sensor Networks, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARnD.com.
APA
Swathi. N S, Dr. K. Deeba (2018). Automated Control of Irrigation in Agriculture Using IOT and Wireless Sensor Networks. International Journal of Advance Research, Ideas and Innovations in Technology, 3(3) www.IJARnD.com.
MLA
Swathi. N S, Dr. K. Deeba. "Automated Control of Irrigation in Agriculture Using IOT and Wireless Sensor Networks." International Journal of Advance Research, Ideas and Innovations in Technology 3.3 (2018). www.IJARnD.com.
Abstract
In the real world, farmers are facing the problem of monitoring their farms, at the same time. This project proposes a technology based on IoT, which reduces human intervention to ensure proper irrigation. It uses Pic16F877A as the microcontroller. This can be achieved by victimization associate degree op-amp as the comparator that acts as the interface between the sensing arrangement and therefore the microcontroller. Once the controller receives this signal, it generates associate degree output that drives a relay for in operation the pump and a liquid crystal display is additionally interfaced to the microcontroller to display data of the soil and pump. The Connections are interfaced to the control unit. This system monitor temperature, moisture, rain and according to the readings of the sensors and switches on the motor to give water to the farms. Here all the data are been hosted on the server and used to monitor the farms continuously. By using this concept, the development time gets reduced and save more time for monitoring the farms. Using this system the motor can switch on or off wherever in the world using the concept of IoT (Internet of Things).
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