Self-Driving System for Electric Wheelchair Using Smartphone to Estimate Travelable Areas

Autor: Shugo Miyamoto, Fumiaki Sato, Takanari Matsumoto, Hiroaki Kawase, Takamasa Koshizen, Yasuo Torimoto
Rok vydání: 2018
Předmět:
Zdroj: SMC
DOI: 10.1109/smc.2018.00061
Popis: A self-driving system for an electric wheelchair must estimate its position, identify the travelable area, and determine the travel route. Indoors, self-location estimation can be performed by wireless LAN or beacon. However, for self-driving, more accurate position estimation is required. In previous research on self-driving of electric wheelchairs, there are methods using LIDAR (Light Detection and Ranging) and laser range scanner. However, the conventional research has a problem that the system configuration is complicated and the power consumption also increases. In this study, we developed position estimation by deep learning using smartphone images with a positioning accuracy that allowed self-driving at low cost. Also, when the smartphone image recognition does not work, such as when the wheelchair approaches a wall, position estimation by augmented reality (AR) markers was used. In addition, a Bluetooth low-energy beacon was used to approximate the position when no marker could be seen. The route from an initial position to a destination was calculated using map information stored within the system. Experiments confirmed that the proposed system allows self-driving of an electric wheelchair along the route from its initial position to a destination. In this prototype system, we used the GPU board to calculate deep learning, but in the future we plan to concentrate the system on smart phones by calculating with the AI chip embedded in the smartphone.
Databáze: OpenAIRE
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