IEEE Access (Jan 2023)

Single-Actuator Hip Exoskeleton Mechanism Design With Actuation in Frontal and Sagittal Planes: Design Methodology and Experimental Validation

  • Jongjun Lee,
  • Jegyeong Ryu,
  • Gyuik Lee,
  • Jeonghan Yu,
  • Seok Won Kang,
  • Yoon Young Kim

DOI
https://doi.org/10.1109/ACCESS.2023.3337144
Journal volume & issue
Vol. 11
pp. 136630 – 136642

Abstract

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Most mobile-type hip exoskeletons only assist on a sagittal plane with a single actuator per hip joint for compactness, lightweightness, and low cost. Even though a new concept of hip mechanism that allows assistance not only on a sagittal plane but also on a frontal plane only with a single actuator has been proposed recently, it has several limitations, such as having a small range of motion and being applicable only on a single gait-mode. Herein, we propose a novel design approach that is a well-combined procedure of target design with clinical walking data, multi-objective design problem definition, type synthesis of mechanism, and analysis of the obtained Pareto-front solutions. We take the hip spherical mechanism’s kinematic trade-offs into account. By utilizing a more complex type of 1-DOF(Degrees of Freedom) mechanism (6-bar Stephenson-III) and multi-objective optimization approach, we successfully enhanced both compactness and hip moment assistance in the single-actuator hip exoskeleton mechanism, and its performance was validated via benchtop experiment of its prototype.

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