Research Article Open Access

A Novel Approach to Wheelchair Design and Operation Using Multi-Function Controller

Jamal I. Al-Nabulsi1
  • 1 Al-Ahliyya Amman University, Amman, Jordan

Abstract

An electric multi-function controlled wheelchair is designed and fully tested. This wheelchair is controlled by several physiological variables namely; voice, head movement, finger bending, breathing pressure and Electrooculography (EOG). The patient has the choice to use any of these variables to control the wheelchair. The voice command is recorded by a voice recognition module with its microphone, whereas, the head and finger motion operate through the gyro accelerometer and flex sensors. A pressure sensor is used to determine the force of breathing and EOG signals are used to control the wheelchair movement. All of the inputs are processed using a microcontroller. Testing of the wheel chair using the mentioned variables is carried out successfully with accuracy between 88 to 96% for various control modules and safety consideration as a primary goal.

Journal of Computer Science
Volume 16 No. 7, 2020, 1029-1041

DOI: https://doi.org/10.3844/jcssp.2020.1029.1041

Submitted On: 5 May 2020 Published On: 25 July 2020

How to Cite: Al-Nabulsi, J. I. (2020). A Novel Approach to Wheelchair Design and Operation Using Multi-Function Controller. Journal of Computer Science, 16(7), 1029-1041. https://doi.org/10.3844/jcssp.2020.1029.1041

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Keywords

  • Wheelchair
  • Breathing-Pressure
  • EOG
  • Head-Motion
  • Voice Recognition Module
  • Body Gestures