Control of one-legged robot hopping in place

Yu Zhou; Chenglong Fu; Changjin Yun; Zhangguo Yu; Ken Chen

doi:10.1109/ROBIO.2013.6739734

Control of one-legged robot hopping in place

Yu Zhou, Chenglong Fu, Changjin Yun, Zhangguo Yu, Ken Chen

机电学院

科研成果: 会议稿件 › 论文 › 同行评审

5 引用（Scopus）

摘要

This paper focuses on one-legged robot hopping in place and presents the corresponding control method based on the angular velocity of torso. By measuring the angular velocity with the use of a gyroscope during flight phase, the hopping robot controller adjusts the toe of the springy leg to the desired location, so as to control the rotational movement of the robot body, which keeps the robot hopping within a small area and maintain its balance. The proposed method depends on neither external sensors like cameras, nor estimates of body location which is easy to diverge gradually. The control algorithm is then verified by co-simulation based on ADAMS and Simulink. Our simulation further showed that the robot was also able to recover from external disturbance in time. The proposed hopping control algorithm and co-simulation results provided a basis for one-legged robot physical prototype development.

源语言	英语
页	1832-1837
页数	6
DOI	https://doi.org/10.1109/ROBIO.2013.6739734
出版状态	已出版 - 2013
活动	2013 IEEE International Conference on Robotics and Biomimetics, ROBIO 2013 - Shenzhen, 中国期限: 12 12月 2013 → 14 12月 2013

会议

会议	2013 IEEE International Conference on Robotics and Biomimetics, ROBIO 2013
国家/地区	中国
市	Shenzhen
时期	12/12/13 → 14/12/13

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10.1109/ROBIO.2013.6739734

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引用此

Zhou, Y., Fu, C., Yun, C., Yu, Z., & Chen, K. (2013). Control of one-legged robot hopping in place. 1832-1837. 论文发表于 2013 IEEE International Conference on Robotics and Biomimetics, ROBIO 2013, Shenzhen, 中国. https://doi.org/10.1109/ROBIO.2013.6739734

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abstract = "This paper focuses on one-legged robot hopping in place and presents the corresponding control method based on the angular velocity of torso. By measuring the angular velocity with the use of a gyroscope during flight phase, the hopping robot controller adjusts the toe of the springy leg to the desired location, so as to control the rotational movement of the robot body, which keeps the robot hopping within a small area and maintain its balance. The proposed method depends on neither external sensors like cameras, nor estimates of body location which is easy to diverge gradually. The control algorithm is then verified by co-simulation based on ADAMS and Simulink. Our simulation further showed that the robot was also able to recover from external disturbance in time. The proposed hopping control algorithm and co-simulation results provided a basis for one-legged robot physical prototype development.",

author = "Yu Zhou and Chenglong Fu and Changjin Yun and Zhangguo Yu and Ken Chen",

year = "2013",

doi = "10.1109/ROBIO.2013.6739734",

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note = "2013 IEEE International Conference on Robotics and Biomimetics, ROBIO 2013 ; Conference date: 12-12-2013 Through 14-12-2013",

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AU - Zhou, Yu

AU - Fu, Chenglong

AU - Yun, Changjin

AU - Yu, Zhangguo

AU - Chen, Ken

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AB - This paper focuses on one-legged robot hopping in place and presents the corresponding control method based on the angular velocity of torso. By measuring the angular velocity with the use of a gyroscope during flight phase, the hopping robot controller adjusts the toe of the springy leg to the desired location, so as to control the rotational movement of the robot body, which keeps the robot hopping within a small area and maintain its balance. The proposed method depends on neither external sensors like cameras, nor estimates of body location which is easy to diverge gradually. The control algorithm is then verified by co-simulation based on ADAMS and Simulink. Our simulation further showed that the robot was also able to recover from external disturbance in time. The proposed hopping control algorithm and co-simulation results provided a basis for one-legged robot physical prototype development.

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Control of one-legged robot hopping in place

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