Litcius/Paper detail

Biomechanical Comparison of Assistance Strategies Using a Bilateral Robotic Knee Exoskeleton

Dawit Lee, Bailey J. McLain, Inseung Kang, Aaron J. Young

2021IEEE Transactions on Biomedical Engineering51 citationsDOI

Abstract

Despite there being studies that have investigated the effects of human augmentation using a knee exoskeleton, comparing different assistance schemes on a single knee exoskeleton has not been studied. Using a light-weight, low-profile bilateral knee exoskeleton system, this study examined and compared the biomechanical effects of three common assistance strategies (biological torque, impedance, and proportional myoelectric controllers) exhibiting different levels of flexibility for the user to control the assistance. Nine subjects walked on a 15% gradient incline surface at 1.1 m/s in the three powered conditions and with the exoskeleton unpowered. All the assistance strategies significantly reduced the metabolic cost of the users compared to the unpowered condition by 3.0% on average across strategies (p < 0.05), led by the significant reduction in the biological knee kinetic effort and knee extensor muscle activation (p < 0.05). Between assistance strategies, the metabolic cost and biomechanics displayed no statistically significant differences. The metabolic and biomechanical results indicate that powered extension assistance during early stance can improve performance compared to the unpowered condition. However, the user's ability to control the assistance may not be significant for human augmentation when walking on an inclined surface with a knee exoskeleton.

Topics & Concepts

ExoskeletonPowered exoskeletonFlexibility (engineering)BiomechanicsPhysical medicine and rehabilitationSimulationKnee flexionMedicinePhysical therapyComputer scienceMathematicsAnatomyStatisticsProsthetics and Rehabilitation RoboticsMuscle activation and electromyography studiesStroke Rehabilitation and Recovery