Design of active orthoses for a robotic gait rehabilitation system

A. C. Villa-Parra; L. Broche; D. Delisle-Rodríguez; R. Sagaró; T. Bastos; A. Frizera-Neto

doi:10.1007/s11465-015-0350-1

Design of active orthoses for a robotic gait rehabilitation system

A. C. Villa-Parra, L. Broche, D. Delisle-Rodríguez, R. Sagaró, T. Bastos, A. Frizera-Neto

Biomedical Engineering Research Group (GIIB)

Research output: Contribution to journal › Literature review › peer-review

7 Scopus citations

Abstract

© 2015, Higher Education Press and Springer-Verlag Berlin Heidelberg. An active orthosis (AO) is a robotic device that assists both human gait and rehabilitation therapy. This work proposes portable AOs, one for the knee joint and another for the ankle joint. Both AOs will be used to complete a robotic system that improves gait rehabilitation. The requirements for actuator selection, the biomechanical considerations during the AO design, the finite element method, and a control approach based on electroencephalographic and surface electromyographic signals are reviewed. This work contributes to the design of AOs for users with foot drop and knee flexion impairment. However, the potential of the proposed AOs to be part of a robotic gait rehabilitation system that improves the quality of life of stroke survivors requires further investigation.

Translated title of the contribution	Diseño de órtesis activas para un sistema robótico de rehabilitación de la marcha
Original language	English (US)
Pages (from-to)	242-254
Number of pages	13
Journal	Frontiers of Mechanical Engineering
DOIs	https://doi.org/10.1007/s11465-015-0350-1
State	Published - 8 Sep 2015

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AU - Villa-Parra, A. C.

AU - Broche, L.

AU - Delisle-Rodríguez, D.

AU - Sagaró, R.

AU - Bastos, T.

AU - Frizera-Neto, A.

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AB - © 2015, Higher Education Press and Springer-Verlag Berlin Heidelberg. An active orthosis (AO) is a robotic device that assists both human gait and rehabilitation therapy. This work proposes portable AOs, one for the knee joint and another for the ankle joint. Both AOs will be used to complete a robotic system that improves gait rehabilitation. The requirements for actuator selection, the biomechanical considerations during the AO design, the finite element method, and a control approach based on electroencephalographic and surface electromyographic signals are reviewed. This work contributes to the design of AOs for users with foot drop and knee flexion impairment. However, the potential of the proposed AOs to be part of a robotic gait rehabilitation system that improves the quality of life of stroke survivors requires further investigation.

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Design of active orthoses for a robotic gait rehabilitation system

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