The need for tuning the PI controller is to improve its performance metrics such as rise time, settling time and overshoot. This paper proposed the Grey Wolf Optimizer (GWO) tuning method of a Proportional Integral (PI) controller for fixed speed Wind Turbine. The objective is to overcome the limitations in using the Particle Swarm Optimization (PSO) and Genetic Algorithm (GA) tuning methods for tuning the PI controller, such as quick convergence occurring too soon into a local optimum, and overshoot of the controller step input response. The GWO, the PSO, and the GA tuning methods were implemented in the Matlab 2016b to search the optimal gains of the Proportional and Integral controller through minimization of the objective function. A co...
International audienceMetaheuristic Optimization Techniques (MOTs) such as the Artificial Bee Colony...
© 2021 IIETA. . This is an open access article distributed under the Creative Commons Attribution Li...
This paper proposes an easily understandable Grey Wolf Optimizer (GWO) applied to the optimal tuning...
The need for tuning the PI controller is to improve its performance metrics such as rise time, settl...
This paper proposes optimal tuning of Proportional Integral (PI) controller using Grey Wolf Optimize...
The tuning of optimal controller parameters in wind plant is crucial in order to minimize the effect...
International audienceWind energy (WE) as an environment-friendly resource is green, clean, and inno...
Nowadays, wind turbine energy has an increased importance in electrical power applications since whe...
This paper presents a method to seek the PI controller parameters of a PMSG wind turbine to improve ...
With the advent of high-speed and parallel computing, the applicability of computational optimizatio...
The main problem of existing wind plant nowadays is that the optimum controller of single turbine de...
This paper proposes the adaptive particle swarm optimization (APSO) technique to control the active ...
In order to meet the requirements of high precision and fast response of permanent magnet direct dri...
In order to meet the requirements of high precision and fast response of permanent magnet direct dri...
Speed regulation of wind turbine rotors are controlled by pitch angle controllers that aect the life...
International audienceMetaheuristic Optimization Techniques (MOTs) such as the Artificial Bee Colony...
© 2021 IIETA. . This is an open access article distributed under the Creative Commons Attribution Li...
This paper proposes an easily understandable Grey Wolf Optimizer (GWO) applied to the optimal tuning...
The need for tuning the PI controller is to improve its performance metrics such as rise time, settl...
This paper proposes optimal tuning of Proportional Integral (PI) controller using Grey Wolf Optimize...
The tuning of optimal controller parameters in wind plant is crucial in order to minimize the effect...
International audienceWind energy (WE) as an environment-friendly resource is green, clean, and inno...
Nowadays, wind turbine energy has an increased importance in electrical power applications since whe...
This paper presents a method to seek the PI controller parameters of a PMSG wind turbine to improve ...
With the advent of high-speed and parallel computing, the applicability of computational optimizatio...
The main problem of existing wind plant nowadays is that the optimum controller of single turbine de...
This paper proposes the adaptive particle swarm optimization (APSO) technique to control the active ...
In order to meet the requirements of high precision and fast response of permanent magnet direct dri...
In order to meet the requirements of high precision and fast response of permanent magnet direct dri...
Speed regulation of wind turbine rotors are controlled by pitch angle controllers that aect the life...
International audienceMetaheuristic Optimization Techniques (MOTs) such as the Artificial Bee Colony...
© 2021 IIETA. . This is an open access article distributed under the Creative Commons Attribution Li...
This paper proposes an easily understandable Grey Wolf Optimizer (GWO) applied to the optimal tuning...