An artificial neural network (ANN) for online tuning of a genetic algorithm based PI controller for interior permanent magnet synchronous motor (IPMSM) drive is presented in this paper. The proposed controller is developed for accurate speed control of the IPMSM drive under system disturbances. In this work, initially different operating conditions are obtained based on motor dynamics incorporating various uncertainties. At each operating condition a genetic algorithm (GA) is used to optimize proportional-integral (PI) controller parameters in a closed loop vector control scheme. In the optimization procedure a performance index is developed to reflect the minimum speed deviation, minimum settling time and zero steady-state error. A radial ...
Fast response and quick recovery from load disturbances and insensivity to parameter variations are ...
The use of permanent magnet synchronous motors in high performance ac motor drives has increased rec...
This paper presents a critical analysis of intelligent tuned PID controllers for the permanent magne...
An artificial neural network (ANN) for online tuning of a genetic algorithm based PI controller for ...
An artificial neural network for online tuning of a genetic algorithm-based proportional-integral (P...
AbstractThis paper develops a high performance PI based controller for an Interior Permanent Magnet ...
A hybrid neuro-fuzzy scheme for online tuning of a genetic-based proportional-integral (PI) controll...
Abstract—A hybrid neuro-fuzzy scheme for online tuning of a genetic-based proportional–integral (PI)...
This paper presents a Genetic Algorithm (GA) based fast speed response controller for poly-phase ind...
The main theme of this paper is to present novel controller, which is a genetic based fuzzy Logic co...
This work presents a novel speed control scheme using a genetic-based fuzzy logic controller (GFLC) ...
The advantages of the interior permanent magnet synchronous motor (IPMSM) for modem high performance...
In this paper, a tracking differentiator-proportional integral and derivative (TD-PID) control schem...
When a Permanent Magnet Synchronous Machine (PMSM) is utilized for applications where high dynamic p...
Abstract – This paper presents an intelligent speed controller for the interior permanent magnet syn...
Fast response and quick recovery from load disturbances and insensivity to parameter variations are ...
The use of permanent magnet synchronous motors in high performance ac motor drives has increased rec...
This paper presents a critical analysis of intelligent tuned PID controllers for the permanent magne...
An artificial neural network (ANN) for online tuning of a genetic algorithm based PI controller for ...
An artificial neural network for online tuning of a genetic algorithm-based proportional-integral (P...
AbstractThis paper develops a high performance PI based controller for an Interior Permanent Magnet ...
A hybrid neuro-fuzzy scheme for online tuning of a genetic-based proportional-integral (PI) controll...
Abstract—A hybrid neuro-fuzzy scheme for online tuning of a genetic-based proportional–integral (PI)...
This paper presents a Genetic Algorithm (GA) based fast speed response controller for poly-phase ind...
The main theme of this paper is to present novel controller, which is a genetic based fuzzy Logic co...
This work presents a novel speed control scheme using a genetic-based fuzzy logic controller (GFLC) ...
The advantages of the interior permanent magnet synchronous motor (IPMSM) for modem high performance...
In this paper, a tracking differentiator-proportional integral and derivative (TD-PID) control schem...
When a Permanent Magnet Synchronous Machine (PMSM) is utilized for applications where high dynamic p...
Abstract – This paper presents an intelligent speed controller for the interior permanent magnet syn...
Fast response and quick recovery from load disturbances and insensivity to parameter variations are ...
The use of permanent magnet synchronous motors in high performance ac motor drives has increased rec...
This paper presents a critical analysis of intelligent tuned PID controllers for the permanent magne...