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Auteurs principaux: Li, Qi, Peng, Liang, Wu, Zhiyuan, Ye, Pengda, Zhang, Weitao, Xu, Yi, Shi, Qing
Format: Preprint
Publié: 2024
Sujets:
Accès en ligne:https://arxiv.org/abs/2405.11856
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author Li, Qi
Peng, Liang
Wu, Zhiyuan
Ye, Pengda
Zhang, Weitao
Xu, Yi
Shi, Qing
author_facet Li, Qi
Peng, Liang
Wu, Zhiyuan
Ye, Pengda
Zhang, Weitao
Xu, Yi
Shi, Qing
contents In order to solve the problem of stable jumping of micro robot, we design a special mechanism: elastic passive joint (EPJ). EPJ can assist in achieving smooth jumping through the opening-closing process when the robot jumps. First, we introduce the composition and operation principle of EPJ, and perform a dynamic modeling of the robot's jumping process. Then, in order to verify the effectiveness of EPJ in controlling the robot's smooth jump, we design a simulation experiment based on MATLAB. Through comparative experiments, it was proved that EPJ can greatly adjust the angular velocity of the robot and increase the jump distance of the robot. Finally, we analyze each parameter in EPJ and performs parameter optimization. After optimization, EPJ achieves a completely flip-free jump of the robot, laying an important foundation for improving the mobility of micro-robot.
format Preprint
id arxiv_https___arxiv_org_abs_2405_11856
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Modeling and simulation of a mechanism for suppressing the flipping problem of a jumping robot
Li, Qi
Peng, Liang
Wu, Zhiyuan
Ye, Pengda
Zhang, Weitao
Xu, Yi
Shi, Qing
Robotics
Systems and Control
In order to solve the problem of stable jumping of micro robot, we design a special mechanism: elastic passive joint (EPJ). EPJ can assist in achieving smooth jumping through the opening-closing process when the robot jumps. First, we introduce the composition and operation principle of EPJ, and perform a dynamic modeling of the robot's jumping process. Then, in order to verify the effectiveness of EPJ in controlling the robot's smooth jump, we design a simulation experiment based on MATLAB. Through comparative experiments, it was proved that EPJ can greatly adjust the angular velocity of the robot and increase the jump distance of the robot. Finally, we analyze each parameter in EPJ and performs parameter optimization. After optimization, EPJ achieves a completely flip-free jump of the robot, laying an important foundation for improving the mobility of micro-robot.
title Modeling and simulation of a mechanism for suppressing the flipping problem of a jumping robot
topic Robotics
Systems and Control
url https://arxiv.org/abs/2405.11856