During the last decade, wind energy gained much importance as an energy source in power systems. DFIG energy is one of the most widely accepted types of renewable energy generation because of its several benefits. This paper presents a comparative study on the performance of different control strategies for DFIG wind turbines: proportional–integral (PI), Artificial Neural Networks (ANN), H∞, and adaptive Fuzzy PI controller. Simulation results show that DFIG’s performance, dynamic response, and robustness against machine parameter variations are improved with H∞ control technique
In this context, we are taking a close interest in the optimization of wind energy production. It co...
Wind energy is clean and renewable, which will never be dried up. The development of wind power has ...
Optimal control of large-scale wind farm has become a critical issue for the development of renewabl...
In this paper, Hybrid Artificial Neural Network (ANN) with Proportional Integral (PI) control techni...
Abstract—This paper focuses on developing a novel algorithm which dynamically optimizes the controll...
The objective of this paper is to study the dynamic response of the wind energy conversion system (W...
This paper focuses on developing a novel algorithm which dynamically optimizes the controllers of do...
In this paper, we are interested in the control of the rotor current of the doubly feed induction ge...
The quickly increasing, widespread use of wind generation around the world reduces carbon emissions,...
With the increasing size of wind power generation it is required to perform power system stability ...
This paper proposes a new computational control strategy. The control and analysis of Doubly Fed Ind...
A neural network controller is presented for the direct power control of a doubly fed induction gene...
Nowadays, regarding high percentage of wind power penetration in power systems, operating conditions...
AbstractThis paper presents a study analysis of a wind energy conversion system (WECS) based on a do...
Abstract. With the increasing size of wind power generation it is required to perform power system s...
In this context, we are taking a close interest in the optimization of wind energy production. It co...
Wind energy is clean and renewable, which will never be dried up. The development of wind power has ...
Optimal control of large-scale wind farm has become a critical issue for the development of renewabl...
In this paper, Hybrid Artificial Neural Network (ANN) with Proportional Integral (PI) control techni...
Abstract—This paper focuses on developing a novel algorithm which dynamically optimizes the controll...
The objective of this paper is to study the dynamic response of the wind energy conversion system (W...
This paper focuses on developing a novel algorithm which dynamically optimizes the controllers of do...
In this paper, we are interested in the control of the rotor current of the doubly feed induction ge...
The quickly increasing, widespread use of wind generation around the world reduces carbon emissions,...
With the increasing size of wind power generation it is required to perform power system stability ...
This paper proposes a new computational control strategy. The control and analysis of Doubly Fed Ind...
A neural network controller is presented for the direct power control of a doubly fed induction gene...
Nowadays, regarding high percentage of wind power penetration in power systems, operating conditions...
AbstractThis paper presents a study analysis of a wind energy conversion system (WECS) based on a do...
Abstract. With the increasing size of wind power generation it is required to perform power system s...
In this context, we are taking a close interest in the optimization of wind energy production. It co...
Wind energy is clean and renewable, which will never be dried up. The development of wind power has ...
Optimal control of large-scale wind farm has become a critical issue for the development of renewabl...