Author:
Vallery Heike,Bögel Alexander,O´Brien Carolyn,Riener Robert
Abstract
Abstract
Avoiding falls is a challenge for many persons in aging societies, and balance dysfunction is a major risk factor. Robotic solutions to assist human gait, however, focus on average kinematics, and less on instantaneous balance reactions. We propose a controller that only intervenes when needed, and that avoids stability issues when interacting with humans: Assistance is triggered only when balance is lost, and this action is purely feed-forward. Experiments show that subjects who start falling during gait can be uprighted by such feed-forward assistive forces.
Subject
Electrical and Electronic Engineering,Computer Science Applications,Control and Systems Engineering
Cited by
16 articles.
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