Sijun Ryu scite author profile

This paper presents the design optimization of a linkage-based wheel mechanism with two degrees of freedom, for stable step climbing. The mechanism has seven rotational joints and one prismatic joint. Kinematic and dynamic analyses of the mechanism were performed. The design was optimized in terms of linkage length and architecture to better manipulate the mechanism in its workspace, which was defined here by the targeted step size, as well as to ensure stability while climbing stairs. Optimization by genetic algorithm was performed using MATLAB. The optimized mechanism exhibited enhanced torque transmission from the input torque to the exerted for at the lobe of the wheel. Compliance control of the transformation will be addressed in the future.

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Modular Two-Degree-of-Freedom Transformable Wheels Capable of Overcoming Obstacle

Lee

Ryu

Won

et al. 2022

IEEE Robot. Autom. Lett.

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A Compact and Agile Angled-Spoke Wheel-Based Mobile Robot for Uneven and Granular Terrains

Lee

Ryu

Kim

et al. 2022

IEEE Robot. Autom. Lett.

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Sijun Ryu

Shape-Morphing Wheel Design and Analysis for Step Climbing in High Speed Locomotion

R-Track: Separable Modular Climbing Robot Design for Wall-to-Wall Transition

Design optimization of a linkage-based 2-DOF wheel mechanism for stable step climbing

Modular Two-Degree-of-Freedom Transformable Wheels Capable of Overcoming Obstacle

A Compact and Agile Angled-Spoke Wheel-Based Mobile Robot for Uneven and Granular Terrains

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