This paper makes a comparison between two control methods for maximum power point tracking (MPPT) of a wind turbine modules using Permanent Magnet Synchronous Generators(PMSG) under fixed and different wind condition: the Fuzzy Logic (FL) and the Artificial Neural Network control (ANN). Both techniques have been simulated and analyzed by using Matlab/Simulink software. The simulated power transitions and the power tracking time realized by the fuzzy logic controller and the neural network controller has been evaluated in comparison with Tip Speed Ratio controller (TSR)
Abstract: This paper describes fuzzy logic control of induction generator speed in wind turbine appl...
This paper deals with a variable speed wind turbine coupled with a permanent magnet synchronous gene...
Wind turbines are one of the fastest growing forms of renewable energy. The amount of power a wind t...
Wind power systems are gaining more and more interests; in order to diminish dependence on fossil fu...
This paper presents the research on small-scale wind turbine systems based on the Maximum Power Poin...
This paper describes the design of a maximum power point tracking (MPPT) strategy for a variable spe...
This paper proposes an artificial neuronal network (ANN) estimation-based wind speed sensolress MPPT...
This paper describes a fuzzy logic application for improving the variable speed and blade pitch wind...
WOS: 000358609700006In this study, a different Maximum Power Point Tracking (MPPT) technique to obta...
AbstractBoth air flow mechanics and control system of a wind turbine play an important role in its e...
wind energy features prominently as a supplementary energy booster. It does not pollute and is inexh...
The study in the paper is placed in the broad context of research for increasing the efficiency of c...
Wind turbines have maximum mechanical power at certain wind speeds. Maximum power point tracking (...
This paper aims to increase the effectiveness of the Maximum Power Control (MPC) strategy by using a...
Variable-speed, fixed-pitch wind turbines are required to optimize power output performance without ...
Abstract: This paper describes fuzzy logic control of induction generator speed in wind turbine appl...
This paper deals with a variable speed wind turbine coupled with a permanent magnet synchronous gene...
Wind turbines are one of the fastest growing forms of renewable energy. The amount of power a wind t...
Wind power systems are gaining more and more interests; in order to diminish dependence on fossil fu...
This paper presents the research on small-scale wind turbine systems based on the Maximum Power Poin...
This paper describes the design of a maximum power point tracking (MPPT) strategy for a variable spe...
This paper proposes an artificial neuronal network (ANN) estimation-based wind speed sensolress MPPT...
This paper describes a fuzzy logic application for improving the variable speed and blade pitch wind...
WOS: 000358609700006In this study, a different Maximum Power Point Tracking (MPPT) technique to obta...
AbstractBoth air flow mechanics and control system of a wind turbine play an important role in its e...
wind energy features prominently as a supplementary energy booster. It does not pollute and is inexh...
The study in the paper is placed in the broad context of research for increasing the efficiency of c...
Wind turbines have maximum mechanical power at certain wind speeds. Maximum power point tracking (...
This paper aims to increase the effectiveness of the Maximum Power Control (MPC) strategy by using a...
Variable-speed, fixed-pitch wind turbines are required to optimize power output performance without ...
Abstract: This paper describes fuzzy logic control of induction generator speed in wind turbine appl...
This paper deals with a variable speed wind turbine coupled with a permanent magnet synchronous gene...
Wind turbines are one of the fastest growing forms of renewable energy. The amount of power a wind t...