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-  2018 

Anti-Windup Control Strategy of Drive System for Humanoid Robot Arm Joint
Anti-Windup Control Strategy of Drive System for Humanoid Robot Arm Joint

DOI: 10.15918/j.jbit1004-0579.201827.0209

Keywords: brushless DC motor direct torque control robot arm joint anti-windup integral state prediction
brushless DC motor direct torque control robot arm joint anti-windup integral state prediction

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Abstract:

To address the problems of torque limit and controller saturation in the control of robot arm joint, an anti-windup control strategy is proposed for a humanoid robot arm, which is based on the integral state prediction under the direct torque control system of brushless DC motor. First, the arm joint of the humanoid robot is modelled. Then the speed controller model and the influence of the initial value of the integral element on the system are analyzed. On the basis of the traditional anti-windup controller, an integral state estimator is set up. Under the condition of different load torques and the given speed, the integral steady-state value is estimated. Therefore the accumulation of the speed error terminates when the integrator reaches saturation. Then the predicted integral steady-state value is used as the initial value of the regulator to enter the linear region to make the system achieve the purpose of anti-windup. The simulation results demonstrate that the control strategy for the humanoid robot arm joint based on integral state prediction can play the role of anti-windup and suppress the overshoot of the system effectively. The system has a good dynamic performance.
To address the problems of torque limit and controller saturation in the control of robot arm joint, an anti-windup control strategy is proposed for a humanoid robot arm, which is based on the integral state prediction under the direct torque control system of brushless DC motor. First, the arm joint of the humanoid robot is modelled. Then the speed controller model and the influence of the initial value of the integral element on the system are analyzed. On the basis of the traditional anti-windup controller, an integral state estimator is set up. Under the condition of different load torques and the given speed, the integral steady-state value is estimated. Therefore the accumulation of the speed error terminates when the integrator reaches saturation. Then the predicted integral steady-state value is used as the initial value of the regulator to enter the linear region to make the system achieve the purpose of anti-windup. The simulation results demonstrate that the control strategy for the humanoid robot arm joint based on integral state prediction can play the role of anti-windup and suppress the overshoot of the system effectively. The system has a good dynamic performance.

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