LidSonic V2.0: LiDAR and Deep Learning-based Green Assistive Edge Device to Enhance Mobility for the Visually Impaired

Busaeed, Sahar; Katib, Iyad; Albeshri, Aiiad; Corchado, Juan M.; Yiğitcanlar, Tan; Mehmood, Rashid

doi:10.20944/preprints202208.0215.v1

2022

DOI: 10.20944/preprints202208.0215.v1

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Preprint

LidSonic V2.0: LiDAR and Deep Learning-based Green Assistive Edge Device to Enhance Mobility for the Visually Impaired

Sahar Busaeed¹,

Iyad Katib²,

Aiiad Albeshri³

et al.

Abstract: Over a billion people around the world are disabled, among them, 253 million are visually impaired or blind, and this number is greatly increasing due to ageing, chronic diseases, poor environment, and health. Despite many proposals, the current devices and systems lack maturity and do not completely fulfill user requirements and satisfaction. Increased research activity in this field is required to encourage the development, commercialization, and widespread acceptance of low-cost and affordable assistive tec… Show more

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Cited by 4 publications

References 82 publications

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Mobility Support with Intelligent Obstacle Detection for Enhanced Safety

Han,

Yoon,

Kim

et al. 2024

Optics

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In recent years, assistive technology usage among the visually impaired has risen significantly worldwide. While traditional aids like guide dogs and white canes have limitations, recent innovations like RFID-based indoor navigation systems and alternative sensory solutions show promise. Nevertheless, there is a need for a user-friendly, comprehensive system to address spatial orientation challenges for the visually impaired. This research addresses the significance of developing a deep learning-based walking assistance device for visually impaired individuals to enhance their safety during mobility. The proposed system utilizes real-time ultrasonic sensors attached to a cane to detect obstacles, thus reducing collision risks. It further offers real-time recognition and analysis of diverse obstacles, providing immediate feedback to the user. A camera distinguishes obstacle types and conveys relevant information through voice assistance. The system’s efficacy was confirmed with a 90–98% object recognition rate in tests involving various obstacles. This research holds importance in providing safe mobility, promoting independence, leveraging modern technology, and fostering social inclusion for visually impaired individuals.

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Mobility Support with Intelligent Obstacle Detection for Enhanced Safety

Han,

Yoon,

Kim

et al. 2024

Optics

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Developing Smartness in Emerging Environments and Applications with a Focus on the Internet of Things

Mehmood

Corchado

Yiğitcanlar

2022

Sensors

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State-of-the-Art Review on Wearable Obstacle Detection Systems Developed for Assistive Technologies and Footwear

Joseph

kian

Begg

2023

Sensors

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Walking independently is essential to maintaining our quality of life but safe locomotion depends on perceiving hazards in the everyday environment. To address this problem, there is an increasing focus on developing assistive technologies that can alert the user to the risk destabilizing foot contact with either the ground or obstacles, leading to a fall. Shoe-mounted sensor systems designed to monitor foot-obstacle interaction are being employed to identify tripping risk and provide corrective feedback. Advances in smart wearable technologies, integrating motion sensors with machine learning algorithms, has led to developments in shoe-mounted obstacle detection. The focus of this review is gait-assisting wearable sensors and hazard detection for pedestrians. This literature represents a research front that is critically important in paving the way towards practical, low-cost, wearable devices that can make walking safer and reduce the increasing financial and human costs of fall injuries.

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LidSonic V2.0: LiDAR and Deep Learning-based Green Assistive Edge Device to Enhance Mobility for the Visually Impaired

Cited by 4 publications

References 82 publications

Mobility Support with Intelligent Obstacle Detection for Enhanced Safety

Mobility Support with Intelligent Obstacle Detection for Enhanced Safety

Developing Smartness in Emerging Environments and Applications with a Focus on the Internet of Things

State-of-the-Art Review on Wearable Obstacle Detection Systems Developed for Assistive Technologies and Footwear

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