an-Eye

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Date

2020-06-06

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Daffodil International University

Abstract

Navigating from one place to another has been a problematic task for the blind. In Bangladesh, the existing footpaths are mostly crowded or broken. Often, visually impaired people get hurt while walking on a footpath as they do not have anything but a stick to help them. Considering the problem scenario, we are proposing a smart solution to identify safe footpath and detect obstacles in a footpath. The system will also be capable of estimating the distance of the object as well as suggesting the safe pathway. To train the models we built a dataset of footpath images of Dhaka containing 3,000 hand-annotated RGB images for semantic segmentation and another dataset containing 500+ samples of real-world distances of reference objects w.r.t to their pixel coordinates in an image for distance estimation. We adopted and modified the U-Net architecture that is trained on our segmentation dataset which is capable of inference safe footpath with 96% accuracy with as low as 4.7 million parameters. The system utilizes YOLOv3 architecture for object detection and a polynomial regression based novel approach to estimate object distance. The distance measurement model obtains a score of 94%.

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Computer Vision, Visually Disabled Persons

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