EMG-Based Kinematic Impedance Control of a Lower-Limb Exoskeleton Conference Paper

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Overview

abstract

• This paper presents the control of a lower-limb exoskeleton in real time, to assist a pathological gait, taking into account only electromyography (EMG) events and a characteristic angular pattern of a normal gait. The algorithm consists of an impedance control scheme that uses EMG signals to modify the characteristic angular pattern of a normal gait. EMG signals were characterized using the simple square integral (SSI) index and this information was used to identify a characteristic EMG pattern in the semitendinosus and gastrocnemius muscles. Finally, a series of experimental tests were conducted with a volunteer to validate the adequate performance of the system. © 2020, Springer Nature Switzerland AG.

authors

• Bonilla Gutiérrez Isela
• Dorantes Méndez Guadalupe
• García I.
• Luna L.
• Mendoza Gutiérrez Marco Octavio

publication date

• 2020-01-01

published in

• IFMBE Proceedings  Proceedings

Research

keywords

• Electromyography; Exoskeleton; Human gait; Impedance control Biomedical engineering; Biophysics; Electromyography; Muscle; Angular pattern; EMG signal; Experimental test; Gastrocnemius muscle; Human gait; Impedance control; Lower limb; Real time; Exoskeleton (Robotics)

Identity

Digital Object Identifier (DOI)

• 10.1007/978-3-030-30648-9_192

Additional Document Info

start page

• 1494

end page

• 1501

volume

• 75