Design and Development of a Smart Cane Using Ultrasonic Sensors and GPS for Visually Impaired people

Authors

  • Amier A. Frag Department of Computer Engineering, College of Engineering Technology – Al Qubbah, Technical and Vocational Education, Libya
  • Omran A. H. Mohamed Computer Department, Higher Institute of Science and Technology – Al Bayda, Libya
  • Massoud A. Omar Imaezeg Department of Electrical and Electronic Engineering, College of Engineering Technology – Al Qubbah, Technical and Vocational Education, Libya
  • Yaser S. A. Shaheen Department of Electrical and Electronic Engineering, College of Engineering Technology – Al Qubbah, Technical and Vocational Education, Libya

Keywords:

Smart Cane, Ultrasonic Sensors, GPS Navigation, Assistive Technology, Visually Impaired

Abstract

This paper presents the design and development of a smart cane for the visually impaired, utilizing ultrasonic sensors and a microcontroller to enhance mobility and obstacle detection. The system detects obstacles within a range of up to 3 meters, covering both front and lateral directions, and provides real-time feedback through vibration and sound alerts. The cane also integrates a GPS module for real-time location tracking and safety monitoring. The prototype was tested with 8 individuals (4 visually impaired, 4 sighted with blindfolds) across five different environments (indoor, outdoor, stairs, uneven terrain, and crowded areas). Results showed an obstacle detection accuracy of 95.4%, a false alarm rate of 2.6%, and a 30% improvement in navigation speed compared to the traditional white cane. The findings demonstrate that the proposed smart cane is an effective, low-cost, and reliable assistive device for improving independent mobility among visually impaired individuals.

Dimensions

Published

2025-11-29

How to Cite

Amier A. Frag, Omran A. H. Mohamed, Massoud A. Omar Imaezeg, & Yaser S. A. Shaheen. (2025). Design and Development of a Smart Cane Using Ultrasonic Sensors and GPS for Visually Impaired people. African Journal of Advanced Pure and Applied Sciences (AJAPAS), 4(4), 599–605. Retrieved from https://aaasjournals.com/index.php/ajapas/article/view/1719

Issue

Volume 4, Issue 4, 2025

Section

Articles
Copyright & Licensing
Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.