基于强化学习的重度残疾人电动轮椅共享控制设计方法

IF 0.4 Q4 ENGINEERING, MULTIDISCIPLINARY Journal of Advanced Simulation in Science and Engineering Pub Date : 2020-01-01 DOI:10.15748/jasse.7.300
Lele Xi, M. Shino
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引用次数: 1

摘要

患有严重残疾的人通常会遭受肌肉力量不足和手部变形的痛苦。这极大地影响了他们操作电动轮椅(EW)的能力,特别是当使用操纵杆控制器时,因为一个操纵杆的操作会影响EW的直线和转弯运动。因此,有严重残疾的人通常在操作EW时表现出困难,特别是在需要良好转向能力的情况下。与自动驾驶相比,该研究提出了一种使用强化学习的新型共享控制方法,考虑到用户的剩余身体功能。通过使用在线学习,共享控制器根据驾驶环境和每个用户的输入特性提供适当的辅助。通过仿真验证了该共享控制器的有效性和特点。
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Shared Control Design Methodologies of an Electric Wheelchair for Individuals with Severe Disabilities using Reinforcement Learning
Individuals with severe disabilities typically suffer from lack of muscle power and deformation of their hands. This significantly affects their ability to operate an Electric Wheelchair (EW) especially when using joystick controllers because one operation of a joystick affects both the straight and turning motions of an EW. Thus, individuals with severe disabilities typically exhibit difficulties in operating an EW, especially in the cases that require fine steering capabilities. In contrast to autonomous driving, the study proposes a novel shared control method using reinforcement learning considering utilizing users' residual physical functions. With the use of online learning, the shared controller provides proper assistance based on the driving environments and each user's input characteristics. The effectiveness and the characteristics of the novel shared controller are discussed via simulations.
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