Abstract
This paper presents a robust inverse dynamics control strategy in combination with a reduced-order disturbance observer for a hydrostatic transmission. The corresponding nonlinear system model, however, is characterized by only imperfectly known system parameters – actuator time constants – and unknown disturbances – a leakage volume flow and a disturbance torque acting on the hydraulic motor. The proposed approach involves three different control actions: 1) an inverse dynamics control that allows for tracking desired trajectories for the difference pressure and the motor angular velocity, 2) a robust control that stabilizes the error dynamics despite uncertain actuator time constants, and 3) a reduced-order disturbance observer that estimates the leakage volume flow as well as the unknown load torque and allows for a disturbance compensation. Simulation results show that with the proposed approach an accurate trajectory tracking is achieved despite the uncertain time constants and the given disturbances in the system dynamics.
Published Version
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