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Switching Assistance for Exoskeletons During Cyclic Motions

Nevio Luigi Tagliamonte, Simona Valentini, Angelo Sudano, Iacopo Portaccio, Chiara De Leonardis, Domenico Formica, Dino Accoto

发表年份
2019
引用次数
9
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摘要

This paper proposes a novel control algorithm for torque-controlled exoskeletons assisting cyclic movements. The control strategy is based on the injection of energy parcels into the human-robot system with a timing that minimizes perturbations, i.e., when the angular momentum is maximum. Electromyographic activity of main flexor-extensor knee muscles showed that the proposed controller mostly favors extensor muscles during extension, with a statistically significant reduction in muscular activity in the range of 10-20% in 60 out of 72 trials (i.e., 83%), while no effect related to swinging speed was recorded (speed variation was lower than 10% in 92% of the trials). In the remaining cases muscular activity increment, when statistically significant, was less than 10%. These results showed that the proposed algorithm reduced muscular effort during the most energetically demanding part of the movement (the extension of the knee against gravity) without perturbing the spatio-temporal characteristics of the task and making it particularly suitable for application in exoskeleton-assisted cyclic motions.

关键词

ExoskeletonComputer scienceTorqueController (irrigation)Control theory (sociology)Task (project management)SimulationPhysical medicine and rehabilitationReduction (mathematics)Limit (mathematics)

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