High performance and reliability are required for wind turbines to be competitive within the electrical energy market. A key challenge for control is the wind power which is an unpredicted input and also acts as a disturbance. Performance assessments of a discrete adaptive LQG (linear quadratic-Gaussian) as well as a fuzzy PI (proportional-integral) control of publicly available wind turbine benchmark model are proposed. The main contribution involves a comparison of closed loop system performance and energy consumption achieved by both controllers. Simulation results by Matlab/Simulink are shown in order to illustrate the effectiveness of the design
This paper introduces a linear structure of wind turbine, operator and the pitch angle controller. T...
This paper presents an application of fuzzy controllers for improving the captured wind energy and t...
In this paper, an improved augmented Takagi-Sugeno fuzzy control design applied to the system of con...
AbstractHigh performance and reliability are required for wind turbines to be competitive within the...
This paper deals with a wind turbine control simulation supported by the use of computational tools ...
Abstract—Wind turbines are complex dynamic systems forced by stochastic wind disturbances, gravitati...
In general, the modelling of wind turbines is a challenging task, since they are complex dynamic sys...
This paper presents a comparison between proportional integral control approaches for variable speed...
This paper presents a comparison between proportional integral control approaches for variable speed...
Research on wind turbine technologies have focused primarily on power cost reduction. Generally, thi...
This paper deals with a hierarchical structure composed by an event-based supervisor in a higher lev...
Rapid growth in wind generation is accompanied with increasingly large wind turbine sizes. While the...
Wind power system control especially for variable speed operation of wind turbine has been carried o...
International audiencehis paper focuses on the development and design of a type-2 fuzzy logic contro...
Wind energy is regarded as one of the oldest energy sources and has played a significant role. As th...
This paper introduces a linear structure of wind turbine, operator and the pitch angle controller. T...
This paper presents an application of fuzzy controllers for improving the captured wind energy and t...
In this paper, an improved augmented Takagi-Sugeno fuzzy control design applied to the system of con...
AbstractHigh performance and reliability are required for wind turbines to be competitive within the...
This paper deals with a wind turbine control simulation supported by the use of computational tools ...
Abstract—Wind turbines are complex dynamic systems forced by stochastic wind disturbances, gravitati...
In general, the modelling of wind turbines is a challenging task, since they are complex dynamic sys...
This paper presents a comparison between proportional integral control approaches for variable speed...
This paper presents a comparison between proportional integral control approaches for variable speed...
Research on wind turbine technologies have focused primarily on power cost reduction. Generally, thi...
This paper deals with a hierarchical structure composed by an event-based supervisor in a higher lev...
Rapid growth in wind generation is accompanied with increasingly large wind turbine sizes. While the...
Wind power system control especially for variable speed operation of wind turbine has been carried o...
International audiencehis paper focuses on the development and design of a type-2 fuzzy logic contro...
Wind energy is regarded as one of the oldest energy sources and has played a significant role. As th...
This paper introduces a linear structure of wind turbine, operator and the pitch angle controller. T...
This paper presents an application of fuzzy controllers for improving the captured wind energy and t...
In this paper, an improved augmented Takagi-Sugeno fuzzy control design applied to the system of con...