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Dynamic Model of a Humanoid Exoskeleton of a Lower Limb with Hydraulic Actuators

Sebastian Głowiński, Maciej Obst, Sławomir Majdanik, Barbara Potocka‐Banaś

2021Sensors33 citationsDOIOpen Access PDF

Abstract

Exoskeletons are the mechanical systems whose operation is carried out in close cooperation with the human body. In this paper, the authors describe a mathematical model of the hydraulic exoskeleton of a lower limb. The coordinates of characteristic points of the exoskeleton in the sagittal plane as a function of user height are presented. The mathematical models, kinematics, and kinetics equations were determined. The masses of the actuators and their dimensions were selected based on catalog data. The force distribution in the wearable system during the squat is shown. The proposed models allowed us to determine the trajectory of individual points of the exoskeleton and to determine the forces in hydraulic cylinders that are necessary to perform a specific displacement. The simulation results show that the joint moments depend linearly on actuator forces. The dynamics equations of the wearable system are non-linear. The inertia of the system depends on the junction variables and it proves that there are dynamic couplings between the individual axes of the exoskeleton.

Topics & Concepts

ExoskeletonKinematicsControl theory (sociology)ActuatorTrajectoryInertiaDisplacement (psychology)EngineeringSquatSimulationSagittal planeWearable computerComputer sciencePhysicsArtificial intelligenceClassical mechanicsPsychologyPsychotherapistMedicineControl (management)BiologyEmbedded systemRadiologyAstronomyPhysiologyProsthetics and Rehabilitation RoboticsErgonomics and Human FactorsStroke Rehabilitation and Recovery
Dynamic Model of a Humanoid Exoskeleton of a Lower Limb with Hydraulic Actuators | Litcius