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Intelligent Service Robotics

Erschienen in:

04.02.2021 | Original Research Paper

Gait pattern generation algorithm for lower-extremity rehabilitation–exoskeleton robot considering wearer’s condition

verfasst von: Seung Hoon Hwang, Dong Ik Sun, Jeakweon Han, Wan-Soo Kim

Erschienen in: Intelligent Service Robotics | Ausgabe 3/2021

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Abstract

Various exoskeleton robots are being developed according to users’ conditions. Lower limb exoskeleton robots have attracted much attention for performing walking motions, a basic exercise for paralyzed patients. In this study, the walking environment of an exoskeleton robot wearer who walks using a crutch is identified as the foot position of the crutch support point and the support leg; therefore, the upcoming foothold location is calculated and sets as a control target. Rather than using preset pedestrian patterns, pedestrian patterns that can match the environment are created using the dynamic movement primitives machine learning technology. We evaluated the exoskeleton robot through an experiment with a healthy 29-year-old male. The experimental results showed that the exoskeleton robot was able to demonstrate the adaptive strides according to the wearer’s intention.

Vorheriger Artikel Investigating the importance of shape features, color constancy, color spaces, and similarity measures in open-ended 3D object recognition

Nächster Artikel Changes in linguistic behaviors based on smart speaker task performance and pragmatic skills in multiple turn-taking interactions

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Titel: Gait pattern generation algorithm for lower-extremity rehabilitation–exoskeleton robot considering wearer’s condition
verfasst von: Seung Hoon Hwang
Dong Ik Sun
Jeakweon Han
Wan-Soo Kim
Publikationsdatum: 04.02.2021
Verlag: Springer Berlin Heidelberg
Erschienen in: Intelligent Service Robotics / Ausgabe 3/2021
Print ISSN: 1861-2776
Elektronische ISSN: 1861-2784
DOI: https://doi.org/10.1007/s11370-020-00346-3

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