Sliding Mode Control for Wind Power Generation Systems Including Wind Speed Models

This wind power generation system employs sliding mode control to enhance performance and stability under varying wind conditions. Sliding mode control represents an effective nonlinear control methodology that addresses performance degradation caused by wind speed fluctuations. The implementation typically involves designing a switching surface function and calculating equivalent control laws to maintain system states along the desired trajectory. Wind speed models are incorporated into the control framework to improve system accuracy and control effectiveness, potentially using Weibull distribution algorithms or time-series forecasting methods for wind pattern simulation. Key functions may include rotor speed regulation, pitch angle optimization, and power output stabilization through robust sliding surfaces. Users should consult the documentation to understand wind model integration techniques, sliding mode controller tuning parameters, and real-time implementation considerations for MATLAB/Simulink environments.