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Control Strategies for Gait Tele-Rehabilitation System Based on Parallel Robotics

Antônio Padilha Lanari Bó, Leslie Casas, Gonzalo Cucho‐Padin, Mitsuhiro Hayashibe, Dante A. Elías

2021Applied Sciences11 citationsDOIOpen Access PDF

Abstract

Among end-effector robots for lower limb rehabilitation, systems based on Stewart–Gough platforms enable independent movement of each foot in six degrees of freedom. Nevertheless, control strategies described in recent literature have not been able to fully explore the potential of such a mechatronic system. In this work, we propose two novel approaches for controlling a gait simulator based on Stewart–Gough platforms. The first strategy provides the therapist direct control of each platform using movement data measured by wearable sensors. The following scheme is designed to improve the level of engagement of the patient by enabling a limited degree of control based on trunk inclination. Both strategies are designed to facilitate future studies in tele-rehabilitation settings. Experimental results have illustrated the feasibility of both control interfaces, either in terms of system performance or user subjective evaluation. Technical capacity to deploy in tele-rehabilitation was also verified in this work.

Topics & Concepts

MechatronicsComputer scienceRehabilitationRoboticsGaitHuman–computer interactionRehabilitation roboticsMovement controlControl (management)SimulationControl engineeringRobotPhysical medicine and rehabilitationArtificial intelligenceEngineeringPhysical therapyMedicineStroke Rehabilitation and RecoveryProsthetics and Rehabilitation RoboticsMuscle activation and electromyography studies
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