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Experimental validation of motor primitive-based control for leg exoskeletons during continuous multi-locomotion tasks

Ruiz Garate, Virginia; Parri, Andrea; Yan, Tingfang; Munih, Marko; Lova, Raffaele Molino; Vitiello, Nicola; Ronsse, Renaud

Experimental validation of motor primitive-based control for leg exoskeletons during continuous multi-locomotion tasks Thumbnail


Authors

Virginia Ruiz Garate

Andrea Parri

Tingfang Yan

Marko Munih

Raffaele Molino Lova

Nicola Vitiello

Renaud Ronsse



Abstract

An emerging approach to design locomotion assistive devices deals with reproducing desirable biological principles of human locomotion. In this paper, we present a bio-inspired controller for locomotion assistive devices based on the concept of motor primitives. The weighted combination of artificial primitives results in a set of virtual muscle stimulations. These stimulations then activate a virtual musculoskeletal model producing reference assistive torque profiles for different locomotion tasks (i.e., walking, ascending stairs, and descending stairs). The paper reports the validation of the controller through a set of experiments conducted with healthy participants. The proposed controller was tested for the first time with a unilateral leg exoskeleton assisting hip, knee, and ankle joints by delivering a fraction of the computed reference torques. Importantly, subjects performed a track involving ground-level walking, ascending stairs, and descending stairs and several transitions between these tasks. These experiments highlighted the capability of the controller to provide relevant assistive torques and to effectively handle transitions between the tasks. Subjects displayed a natural interaction with the device. Moreover, they significantly decreased the time needed to complete the track when the assistance was provided, as compared to wearing the device with no assistance.

Journal Article Type Article
Acceptance Date Feb 28, 2017
Online Publication Date Mar 17, 2017
Publication Date Mar 17, 2017
Deposit Date Mar 10, 2021
Publicly Available Date Mar 18, 2021
Journal Frontiers in Neurorobotics
Electronic ISSN 1662-5218
Publisher Frontiers Media
Peer Reviewed Peer Reviewed
Volume 11
Article Number 15
DOI https://doi.org/10.3389/fnbot.2017.00015
Public URL https://uwe-repository.worktribe.com/output/7033306

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