Control Method of Flexible Manipulator Based on Nonlinear Active Disturbance Rejection Control Technology

A technology of active disturbance rejection control and flexible manipulator, applied in the direction of program control manipulator, manipulator, manufacturing tool, etc., can solve the problems of difficult observation of the state of the flexible manipulator system, and difficulty in applying control amount.

Active Publication Date: 2018-08-17
ZHEJIANG UNIV OF TECH
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AI Technical Summary

Problems solved by technology

However, it is difficult to observe the system state of the flexible manipulator, and it is difficult to apply an effective control amount to achieve precise control.

Method used

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  • Control Method of Flexible Manipulator Based on Nonlinear Active Disturbance Rejection Control Technology
  • Control Method of Flexible Manipulator Based on Nonlinear Active Disturbance Rejection Control Technology
  • Control Method of Flexible Manipulator Based on Nonlinear Active Disturbance Rejection Control Technology

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Embodiment Construction

[0080] The present invention will be further described below in conjunction with the accompanying drawings.

[0081] refer to Figure 1-Figure 9 , an adaptive sliding mode control method for servo systems based on extended state observers, including the following steps:

[0082] Step 1: Establish the system motion equation shown in formula (1):

[0083]

[0084] Among them, q 1 is the rotation angle of the motor input end, is the angular acceleration at the input end of the motor, is the angular jerk at the input end of the motor, q 2 is the rotation angle of the output end of the motor, is the angular acceleration of the output end of the motor, is the angular jerk at the output end of the motor, I is the connection inertia, J is the motor inertia, K is the stiffness of the mechanical arm, u is the input torque, M and L are the load mass and load moment length;

[0085] Step 2: Define state variables: Formula (1) is rewritten as

[0086]

[0087] Through d...

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Abstract

A flexible manipulator control method based on the non-linear active disturbance rejection control technique includes the steps of building a flexible manipulator system module, initializing the system state and controller parameters, designing a high-order tracking differentiator, designing a non-linear extended state observer, determining the observer parameters through a pole assignment mode and adding non-linear feedback. The extended state observer is designed and used for estimating the system state and external disturbance. The observer gain parameter is determined through the pole assignment mode. A non-linear feedback control law is designed, the effect that the system tracking error is rapid and stable and converges to the null point is guaranteed, and finally rapid and stable control over a flexible manipulator system is realized. By means of the flexible manipulator control method based on the non-linear active disturbance rejection control technique, the problem that the internal state of the system and external disturbance can not be observed is solved, the influences of non-linear links and uncertain items existing in the system are made up, the problem of a common PID control method is relieved, and the system can rapidly and stably track expected signals.

Description

technical field [0001] The invention relates to a control method of a flexible manipulator based on nonlinear active disturbance rejection control technology, which is suitable for position tracking control of a servo system of a flexible manipulator with uncertain items. Background technique [0002] As the robot system develops towards high speed, heavy load, and high precision, this will inevitably increase the elastic deformation of the components, which will cause a contradiction with the stability and accuracy of the robot's movement. Mechanical vibration, thereby making control of its tip position difficult. Therefore, the traditional research methods of rigid manipulators cannot be directly applied to the study of flexible manipulators. For this reason, people introduce a branch of mechanism dynamics—elastic dynamics into it, and a new kind of robot is produced: soft robot. Compared with the rigid manipulator, the flexible manipulator has more degrees of freedom, a...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B25J9/16
CPCB25J9/1635
Inventor 陈强龚相华高灵捷
Owner ZHEJIANG UNIV OF TECH
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