This site documents my research in the application of advanced intelligent paradigms in the design and control of nonlinear dynamical systems. Special emhasis is on control of wind power generating systems for enhanced power production and reliability.
Articles
Disturbance Rejection by Dual Pitch Control and Self-Tuning Regulator for WTG Parametric Uncertainty Compensation (with Tomonobu Senjyu), IET Proceedings - Control Theory and Applications (2007)
Operation of wind turbine generator (WTG) systems in the above-rated region characterized by high wind...
Gain Scheduling Control of Variable Speed WTG Under Widely Varying Turbulence Loading (with Tomonobu Senjyu), Renewable Energy (2007)
Probabilistic paradigms for wind turbine controller design have been gaining attention. Motivation derives from the...
Regulation of WTG Dynamic Response to Parameter Variations of Analytic Wind Stochasticity, Wind Energy (Wiley-InterScience) (2007)
Although variable-speed operation can reduce the impact of transient wind gusts and subsequent component fatigue,...
Maximum Wind Power Capture by Sensorless Rotor Position and Wind Velocity Estimation from Flux Linkage and Sliding Observer (with Tomonobu Senjyu, Atsushi Yona, Naomitsu Urasaki, Hiroshi Kinjo, and Toshihisa Funabashi), International Journal of Emerging Electric Power Systems (2007)
In recent developments wind power has been gaining rapid usage as an alternative source of...