Home /Research /Feedback Control of an Exoskeleton for Paraplegics: Toward Robustly Stable, Hands-Free Dynamic Walking
LOCOMOTION

Feedback Control of an Exoskeleton for Paraplegics: Toward Robustly Stable, Hands-Free Dynamic Walking

Omar Harib, Ayonga Hereid, Ayush Agrawal, Thomas Gurriet, Sylvain Finet, Guilhem Boéris, Alexis Duburcq, M. Eva Mungai, Aaron D. Ames, Koushil Sreenath, Jessy W. Grizzle

Year
2018
Citations
9

Abstract

"I will never forget the emotion of my first steps […]," were the words of Fran?oise, the first user during initial trials of the exoskeleton ATALANTE [1]. "I am tall again!" were the words of Sandy (the fourth user) after standing up in the exoskeleton. During these early tests, complete paraplegic patients dynamically walked up to 10 m without crutches or other assistance using a feedback control method originally invented for bipedal robots. As discussed in "Summary," this article describes the hardware (shown in Figure 1) that was designed to achieve hands-free dynamic walking, the control laws that were deployed (and those being developed) to provide enhanced mobility and robustness, and preliminary test results. In this article, dynamic walking refers to a motion that is orbitally stable as opposed to statically stable.

Keywords

ExoskeletonNoveltyRobustness (evolution)Control theory (sociology)Feedback controlComputer sciencePerturbation (astronomy)Control engineeringPowered exoskeletonFeedback controller

Related papers

Browse all LOCOMOTION papers