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Main Authors: Jiang, Yuhao, Chen, Fuchen, Paik, Jamie, Aukes, Daniel M.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.02547
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author Jiang, Yuhao
Chen, Fuchen
Paik, Jamie
Aukes, Daniel M.
author_facet Jiang, Yuhao
Chen, Fuchen
Paik, Jamie
Aukes, Daniel M.
contents Under-actuated compliant robotic systems offer a promising approach to mitigating actuation and control challenges by harnessing pre-designed, embodied dynamic behaviors. This paper presents Flix-Walker, a novel, untethered, centimeter-scale quadrupedal robot inspired by compliant under-actuated mechanisms. Flix-Walker employs flexible, helix-shaped beams as legs, which are actuated by vibrations from just two motors to achieve three distinct mobility modes. We analyze the actuation parameters required to generate various locomotion modes through both simulation and prototype experiments. The effects of system and environmental variations on locomotion performance are examined, and we propose a generic metric for selecting control parameters that produce robust and functional motions. Experiments validate the effectiveness and robustness of these actuation parameters within a closed-loop control framework, demonstrating reliable trajectory-tracking and self-navigation capabilities.
format Preprint
id arxiv_https___arxiv_org_abs_2507_02547
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Vibration of Soft, Twisted Beams for Under-Actuated Quadrupedal Locomotion
Jiang, Yuhao
Chen, Fuchen
Paik, Jamie
Aukes, Daniel M.
Robotics
Under-actuated compliant robotic systems offer a promising approach to mitigating actuation and control challenges by harnessing pre-designed, embodied dynamic behaviors. This paper presents Flix-Walker, a novel, untethered, centimeter-scale quadrupedal robot inspired by compliant under-actuated mechanisms. Flix-Walker employs flexible, helix-shaped beams as legs, which are actuated by vibrations from just two motors to achieve three distinct mobility modes. We analyze the actuation parameters required to generate various locomotion modes through both simulation and prototype experiments. The effects of system and environmental variations on locomotion performance are examined, and we propose a generic metric for selecting control parameters that produce robust and functional motions. Experiments validate the effectiveness and robustness of these actuation parameters within a closed-loop control framework, demonstrating reliable trajectory-tracking and self-navigation capabilities.
title Vibration of Soft, Twisted Beams for Under-Actuated Quadrupedal Locomotion
topic Robotics
url https://arxiv.org/abs/2507.02547