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Force/position tracking for electrohydraulic systems of a robotic excavator

Q.H. Nguyen, Q. P. Ha, David Rye, Hugh Durrant‐Whyte

Year
2002
Citations
46

Abstract

Presents the sliding mode axis control of the electrohydraulic servo systems of a robotic excavator. The dynamic systems are described by a comprehensive model that accounts for nonlinearities and friction effects of asymmetric hydraulic cylinders. A sliding mode controller is developed for the electrohydraulic actuator of each working axis to provide stable force tracking. With a proper choice of the reference force, the control law can also allow tracking of a desired piston displacement trajectory. Numerical simulation demonstrates the validity of the proposed technique. Experimental results show good performance and strong robustness in both force and position following.

Keywords

ExcavatorControl theory (sociology)ActuatorRobustness (evolution)ServomechanismPiston (optics)ServomotorHydraulic cylinderControl engineeringTrajectory

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