TY  - JOUR
AU  - G Mahammad Idrush
AU  - I Ashok Kumar
AU  - K Bhanu Prakash
AU  - J Sriman Narayana
PY  - 2026
DA  - 2026/02/09
TI  - An Intelligent Multi-Sensor Fusion Framework for Real-Time Obstacle Detection and Haptic- Audio Navigation Assistance for the Visually Impaired
JO  - Global Journal of Engineering Innovations and Interdisciplinary Research
VL  - 6
IS  - 2
AB  - Visually impaired individuals face significant challenges in independent mobility due to limited
environmental perception, increasing risks of collisions and disorientation. Traditional aids like white
canes provide limited range and no semantic information. This paper proposes an intelligent multisensor
fusion framework for real-time obstacle detection and haptic-audio navigation assistance. The
system integrates ultrasonic sensors for proximity, RGB-D camera for depth and object recognition
(via lightweight CNN), IMU for motion tracking, and optional LiDAR for enhanced mapping. Data
fusion employs an Extended Kalman Filter (EKF) for robust state estimation and obstacle localization,
with deep learning (YOLOv8-lite + LSTM) for semantic classification (e.g., static/dynamic obstacles).
Feedback is delivered via haptic vibrations (direction/intensity) and audio cues (TTS direction/
distance). Evaluated on custom indoor/outdoor datasets and real-world trials, the framework achieves
high detection accuracy (95.7%), low latency (<50 ms), and improved user confidence. It enhances
safety, autonomy, and inclusivity while maintaining low power and portability for wearable deployment.
Keywords: Multi-Sensor Fusion, Visually Impaired Navigation, Obstacle Detection, Haptic-Audio
Feedback, Extended Kalman Filter, Deep Learning, Assistive Technology.
SN  - 3066-1226
UR  - https://dx.doi.org/10.33425/3066-1226.1215
DO  - 10.33425/3066-1226.1215