The Impulse Excitation Joint Servo Drive Design and Adaptive Backstepping Control of Humanoid Robots 被引量：3

The Impulse Excitation Joint Servo Drive Design and Adaptive Backstepping Control of Humanoid Robots

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摘要 This study aims to explore the humanoid robot joint servo drive integration design and adaptive backstepping control. To make the humanoid robot have explosive power as the human does, simply increasing the power output of the motor of a lightweight design cannot meet the demand of moving heavy objects and so on. Moreover, the backstepping control algorithm is designed to implement the dual-arm cooperative control. The joint servo drive is redesigned in the present study, which can drive the motor at a limitation state when needed output high-voltage pulse can stimulate the motor so that the motor can produce an instantaneous large torque. A miniature design scheme is presented in this study for the servo drive, explaining the design method of each part module. The ex- perimental data illustrate that the servo drive can produce an output torque greater than the rate of the high-voltage pulse that stimulates the motor. Knowledge of the control of humanoid robot moving a heavy object has important practical significance. The present study provides a complete actual problem and exhibits a real practical use case which can be used to speed up the explosive humanoid robot arms. This study aims to explore the humanoid robot joint servo drive integration design and adaptive backstepping control. To make the humanoid robot have explosive power as the human does, simply increasing the power output of the motor of a lightweight design cannot meet the demand of moving heavy objects and so on. Moreover, the backstepping control algorithm is designed to implement the dual-arm cooperative control. The joint servo drive is redesigned in the present study, which can drive the motor at a limitation state when needed output high-voltage pulse can stimulate the motor so that the motor can produce an instantaneous large torque. A miniature design scheme is presented in this study for the servo drive, explaining the design method of each part module. The ex- perimental data illustrate that the servo drive can produce an output torque greater than the rate of the high-voltage pulse that stimulates the motor. Knowledge of the control of humanoid robot moving a heavy object has important practical significance. The present study provides a complete actual problem and exhibits a real practical use case which can be used to speed up the explosive humanoid robot arms.

作者 Kcqiang Bai Minzhou Luo Tao Li Jue Wu

机构地区 Southwest University of Science and Technology Department of Automation Institute of Advanced Manufacturing and Technology

出处《Journal of Bionic Engineering》 SCIE EI CSCD 2018年第1期114-125,共12页 仿生工程学报（英文版）

关键词 adaptive backstepping control bionic robot drive integration design impulse excitation servo drive adaptive backstepping control, bionic robot, drive integration design, impulse excitation, servo drive

分类号 Q [生物学]

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Journal of Bionic Engineering

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