Yang Xuan-fang

The Optimization-Sliding Mode Control For Three-Phase Three-Wire DSP-based Active Power Filter

Based on the time-domain analysis, a time-domain mathematical model of three-phase three-wire active power filter (APF) current control loop is established; Predictive control equation and its optimal feasible solution with minimum objective function value are gotten, and the sliding-mode control strategy of current control loop is deduced. A novel optimization-sliding mode control strategy is proposed, with this control strategy the current tracking error can be reduced quickly and the chattering can be reduced effectively. The control performance under the proposed control strategy is analyzed. The proposed control strategy can improve current tracking speed and accuracy, provide both robustness response and a good dynamic response of the current tracking control, and has the characteristics of simple computation and easy application. The simulation and experiment results show its validity and feasibility

Research on wave disturbance in integrated control system

Because of the effect of marine environment on integrated control systems, an accurate wave model is the basis of integrated control system. In order to effectively calculate the forces and moments acted on the integrated control system by marine environment and optimize controller, the paper uses equi-energy divided method to build the mathematical model of wave disturbance based on Matlab. Furthermore, a simulation based on a supply ship is carried out, under different sea states,wave interference torque on the ship is researched. The results show that this method can simulate wave quickly, accurately and effectively, and the effect of this model fits actual mechanical experience well.