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Human-robot Interaction 기반 Human Factor를 고려한 자율주행 전동 휠체어의 사용자 맞춤형 속도 제어 시스템Personalized Velocity Control System of Autonomous Wheelchairs Considering Human–robot Interaction–based Human Factor

Other Titles
Personalized Velocity Control System of Autonomous Wheelchairs Considering Human–robot Interaction–based Human Factor
Authors
이준호이선호정이훈황동욱강창묵최우영
Issue Date
Feb-2026
Publisher
제어·로봇·시스템학회
Keywords
autonomous wheelchair; human-robot interaction; human factor; integrated control system; personalized control; .
Citation
제어.로봇.시스템학회 논문지, v.32, no.2, pp 171 - 179
Pages
9
Indexed
SCOPUS
KCI
Journal Title
제어.로봇.시스템학회 논문지
Volume
32
Number
2
Start Page
171
End Page
179
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/210846
DOI
10.5302/J.ICROS.2026.25.0302
ISSN
1976-5622
2233-4335
Abstract
This study proposes a personalized velocity control system for an autonomous wheelchair by deriving human factors from the subjective opinions and requirements of users obtained through Human–Robot Interaction (HRI)–based usability evaluations. Using Bézier curve-based velocity profiles with different average deceleration levels, five deceleration modes are designed and tested with 38 participants in an indoor environment. The usability evaluation employs a seven-point Likert scale, and the collected responses are probabilistically analyzed to compute performance scores for each deceleration mode, leading to final performance indices defined as human factors. An optimal velocity profile that satisfies user requirements is generated based on these human factors, and a personalized control system is implemented by integrating a velocity controller with tracking error-based and feedforward compensation. In experiments with the same participants from the usability evaluation, the integrated controller closely tracks the optimal velocity profile, and the tracking error distribution is concentrated near zero, remaining within ±0.2 km/h. These results demonstrate that the proposed personalized control system improves driving safety and ride comfort while maintaining a high tracking performance by embedding quantified human factors into velocity planning and the integrated control framework.
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