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Gait-phase-dependent control using a smart walker for physical training

Pengcheng Li, Yoji Yamada, Xianglong Wan, Yasushi Uchiyama, Wakako Sato, Kazunori Yamada, Mayu Yokoya

发表年份
2019
引用次数
7

摘要

Falling has become a key factor that affects the quality of life of the elderly. Currently, the use of a few rehabilitation robots can contribute to the restoration of balance. In this paper, a walker-based rehabilitation robot with a gait-phasedependent control algorithm is proposed to promote dynamic balance in the elderly. It has unique characteristics in that the level of the walker to resist the propulsion force exerted by a user can vary depending on the gait-phase that is estimated using the interaction force between the robot and the user. The robot efficiently improves the muscle power of various muscle groups of the user. Experiments with three young subjects were conducted to validate the effectiveness of the walker with the gait-phase-dependent control algorithm.

关键词

GaitRobotBalance (ability)Falling (accident)Computer sciencePhysical medicine and rehabilitationSimulationRehabilitationGait trainingArtificial intelligence

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