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Exoskeleton for gait rehabilitation of children: Conceptual design

Jorge L. Cornejo, Jesús Santana-Solano, Sergio Alexánder Salinas

Year
2017
Citations
3

Abstract

This paper presents the conceptual design of an exoskeleton for gait rehabilitation of children. This system has electronics, mechanicals and software sections, which are implemented and tested using a mannequin of a child. The prototype uses servomotors to move robotic joints that are attached to simulated patient's legs. The design has 4 DOF (degrees of freedom) two for hip joints and other two for knee joints, in the sagittal plane. A microcontroller measures sensor signals, controls motors and exchanges data with a computer. The user interacts with a graphical interface to configure, control and monitor the exoskeleton activities. The laboratory tests show soften movements in joint angle tracking.

Keywords

ExoskeletonSagittal planeMicrocontrollerComputer scienceSoftwareServomotorGaitSimulationInterface (matter)Human–computer interaction

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