Title :
Hybrid Control of a Wind Induction Generator Based on Grey–Elman Neural Network
Author :
Whei-Min Lin ; Chih-Ming Hong ; Cong-Hui Huang ; Ting-Chia Ou
Author_Institution :
Dept. of Electr. Eng., Nat. Sun Yat-Sen Univ., Kaohsiung, Taiwan
Abstract :
This brief presents the design of an optimal wind energy control system for maximum power point tracking. With the help of a grey predictor for the preprocessor, a high-performance online training Elman neural network (ENN) is designed to derive the turbine speed needed to extract maximum power from wind. Moreover, the connective weights of the improved ENN are trained online by the backpropagation learning algorithm. Compared to earlier methods, better results are obtained when the ENN controller is used together with the grey system modeling approach. Performance of the proposed approach is verified by the experimental results.
Keywords :
angular velocity control; asynchronous generators; backpropagation; control system synthesis; grey systems; neurocontrollers; wind power plants; ENN; ENN connective weights; Grey-Elman neural network; backpropagation learning algorithm; grey predictor; grey system modeling approach; high-performance online training Elman neural network; hybrid control; maximum power point tracking; optimal wind energy control system design; turbine speed; wind induction generator; Induction generators; Maximum power point trackers; Neural networks; Observers; Wind power generation; Wind turbines; Grey predictor; improved Elman neural network (ENN); maximum power point tracking; sliding-mode speed observer; wind turbine generator;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2012.2231865
