Model-free adaptive control for the ball-joint robot driven by PMA group

Yu Liu; Tao Wang; Wei Fan; Yu Wang

doi:10.3724/SP.J.1218.2013.00129

Model-free adaptive control for the ball-joint robot driven by PMA group

Yu Liu, Tao Wang^*, Wei Fan, Yu Wang

^*Corresponding author for this work

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

11 Citations (Scopus)

Abstract

A triaxial ball-joint robot driven by PMA (pneumatic muscle actuator) group is designed. The inverse kinematics of the robot is analyzed. On the basis of its inverse kinematics analysis, the control strategy of the PMA group based on nonlinear feedback is proposed. The system of PMA is a strongly nonlinear and time-varying self-balanced system. Because it is difficult to overcome the conflict among the regulating speed, the stability and the control accuracy with traditional control methods, an improved model-free adaptive control is introduced. Experiments show that on the premise of ensuring the stability, the control accuracy and the adjusting speed are enhanced. The system's steady-error is less than 0.3° and a satisfactory control result is obtained.

Original language	English
Pages (from-to)	129-134
Number of pages	6
Journal	Jiqiren/Robot
Volume	35
Issue number	2
DOIs	https://doi.org/10.3724/SP.J.1218.2013.00129
Publication status	Published - Mar 2013

Keywords

Group control strategy
Inverse kinematics analysis
MFAC (model free
PMA (pneumatic muscle actuator)

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10.3724/SP.J.1218.2013.00129

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title = "Model-free adaptive control for the ball-joint robot driven by PMA group",

abstract = "A triaxial ball-joint robot driven by PMA (pneumatic muscle actuator) group is designed. The inverse kinematics of the robot is analyzed. On the basis of its inverse kinematics analysis, the control strategy of the PMA group based on nonlinear feedback is proposed. The system of PMA is a strongly nonlinear and time-varying self-balanced system. Because it is difficult to overcome the conflict among the regulating speed, the stability and the control accuracy with traditional control methods, an improved model-free adaptive control is introduced. Experiments show that on the premise of ensuring the stability, the control accuracy and the adjusting speed are enhanced. The system's steady-error is less than 0.3° and a satisfactory control result is obtained.",

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AU - Liu, Yu

AU - Wang, Tao

AU - Fan, Wei

AU - Wang, Yu

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N2 - A triaxial ball-joint robot driven by PMA (pneumatic muscle actuator) group is designed. The inverse kinematics of the robot is analyzed. On the basis of its inverse kinematics analysis, the control strategy of the PMA group based on nonlinear feedback is proposed. The system of PMA is a strongly nonlinear and time-varying self-balanced system. Because it is difficult to overcome the conflict among the regulating speed, the stability and the control accuracy with traditional control methods, an improved model-free adaptive control is introduced. Experiments show that on the premise of ensuring the stability, the control accuracy and the adjusting speed are enhanced. The system's steady-error is less than 0.3° and a satisfactory control result is obtained.

AB - A triaxial ball-joint robot driven by PMA (pneumatic muscle actuator) group is designed. The inverse kinematics of the robot is analyzed. On the basis of its inverse kinematics analysis, the control strategy of the PMA group based on nonlinear feedback is proposed. The system of PMA is a strongly nonlinear and time-varying self-balanced system. Because it is difficult to overcome the conflict among the regulating speed, the stability and the control accuracy with traditional control methods, an improved model-free adaptive control is introduced. Experiments show that on the premise of ensuring the stability, the control accuracy and the adjusting speed are enhanced. The system's steady-error is less than 0.3° and a satisfactory control result is obtained.

KW - Group control strategy

KW - Inverse kinematics analysis

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KW - PMA (pneumatic muscle actuator)

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Model-free adaptive control for the ball-joint robot driven by PMA group

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Keywords

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