Home /Research /An Experimental Evaluation of the Proto-MATE: A Novel Ergonomic Upper-Limb Exoskeleton to Reduce Workers' Physical Strain
HRI

An Experimental Evaluation of the Proto-MATE: A Novel Ergonomic Upper-Limb Exoskeleton to Reduce Workers' Physical Strain

Ilaria Pacifico, Alessandro Scano, Eleonora Guanziroli, Matteo Moisè, Luca Morelli, Andrea Chiavenna, Duane Romo, Stefania Spada, G. Colombina, Franco Molteni, Francesco Giovacchini, Nicola Vitiello, Simona Crea

Year
2020
Citations
142
Access
Open access

Abstract

Wearable passive upper-limb exoskeletons have been proposed and commercialized as tools to improve the ergonomics of workers in repetitive or physically demanding tasks. In the study presented here, an innovative upper-limb exoskeleton is presented, along with experimental tests with human subjects. The device, called proto-MATE, is characterized by two distinguishing design features: a highly ergonomic human-robot kinematics architecture and bioinspired assistance, created to partially compensate for the user's arm weight. Experimental tests investigated the device's effects on the physical strain of eight upper-limb muscles. These tests also quantified the kinematic coupling between the device and the user by means of specific kinematics-related parameters. The protocol included overhead tasks that are representative of the target application and tasks that generalize nontargeted upperlimb movements and may occur in real working conditions.

Keywords

ExoskeletonKinematicsWearable computerSimulationComputer scienceEngineeringOverhead (engineering)Robot kinematicsRobotHuman–computer interaction

Related papers

Browse all HRI papers