Automatic Door Opening and Closing System Using Arduino

Authors

  • Bahadur Rai Student, Department of Electrical and Electronics Engineering, Center for Computer and Communication Technology, Namchi, India
  • Anup Adhikari Student, Department of Electrical and Electronics Engineering, Center for Computer and Communication Technology, Namchi, India
  • Sapna Chettri Student, Department of Electrical and Electronics Engineering, Center for Computer and Communication Technology, Namchi, India
  • Mansingh Manger Student, Department of Electrical and Electronics Engineering, Center for Computer and Communication Technology, Namchi, India
  • Adhishwar Chettri Student, Department of Electrical and Electronics Engineering, Center for Computer and Communication Technology, Namchi, India
  • Neshal Rai Student, Department of Electrical and Electronics Engineering, Center for Computer and Communication Technology, Namchi, India

Keywords:

Arduino, IR sensor, Microcontroller, Motor driver IC, Servo Motor

Abstract

In these modern days opening and closing of the door have been always boring jobs, especially in a place where a person is always required to open the door for visitors such as hotels, shopping malls, and theatre. Here is a solution to open and closed the door i.e., movement sensed automatic door opening and closing system. This project is based on sensing any body movement present nearby the sensor. This is achieved with the help of an infrared sensor (IR). When a human body emits infrared energy which is detected by the IR sensor from a particular distance. The signal is detected by the sensor is pass to the controller to function a door motor IC. When a body reached the operating rate of the IR sensor, it sends a signal to the microcontroller to open and closed the door. The setting of the door is stored in the memory of the microprocessor.

Downloads

Published

24-07-2021

How to Cite

[1]
B. Rai, A. Adhikari, S. Chettri, M. Manger, A. Chettri, and N. Rai, “Automatic Door Opening and Closing System Using Arduino”, IJRAMT, vol. 2, no. 7, pp. 195–196, Jul. 2021.

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Section

Articles