This paper presents the design and performance analysis of Flower Pollination Algorithm (FPA) based Proportional Integral Derivative (PID) controllers for Automatic Generation Control (AGC) of an interconnected power system. A two area thermal system with governor dead-band nonlinearity is considered for the design and analysis purpose. A different kind of approach is made to design a multi-objective function which contains weighted performance functions such as ISE, IAE, ISTE, ITAE. These weights are the functions of system response. It is noticed that the dynamic performance of new objective optimized PID controller is better than the others mentioned in the literature. The objective function also includes performance response for various...
In this paper, a modified form of the Proportional Integral Derivative (PID) controller known as the...
This study extensively presents the Automatic Generation Control (AGC) application of Artificial Bee...
In this paper, Proportional Integral Derivative (PID) controller is designed using Differential Evol...
AbstractThis paper presents the design and performance analysis of Flower Pollination Algorithm (FPA...
This paper presents a new approach for designing a Pseudo Derivative Feed Forward (FDFF) controller ...
Abstract: As the world’s population grows and energy demand increases, it is necessary to increase t...
AbstractThis paper presents the design and performance analysis of Differential Evolution (DE) algor...
This paper presents the design and performance analysis of Differential Evolution (DE) algorithm bas...
As the world’s population grows and energy demand increases, it is necessary to increase the ...
This paper presents the design and performance analysis of Differential Evolution (DE) algorithm bas...
AbstractThis paper presents the design and performance analysis of Differential Evolution (DE) algor...
For all intents and purposes all power system is of multi-area in nature. Consequently investigation...
The foremost aims of the Load Frequency Control (LFC) is to maintain the frequency at nominal value ...
This paper presents Flower Pollination (FP) algorithm for solving the optimal reactive power problem...
Automatic generation control (AGC) is major issue in power system whose main purpose is to maintain ...
In this paper, a modified form of the Proportional Integral Derivative (PID) controller known as the...
This study extensively presents the Automatic Generation Control (AGC) application of Artificial Bee...
In this paper, Proportional Integral Derivative (PID) controller is designed using Differential Evol...
AbstractThis paper presents the design and performance analysis of Flower Pollination Algorithm (FPA...
This paper presents a new approach for designing a Pseudo Derivative Feed Forward (FDFF) controller ...
Abstract: As the world’s population grows and energy demand increases, it is necessary to increase t...
AbstractThis paper presents the design and performance analysis of Differential Evolution (DE) algor...
This paper presents the design and performance analysis of Differential Evolution (DE) algorithm bas...
As the world’s population grows and energy demand increases, it is necessary to increase the ...
This paper presents the design and performance analysis of Differential Evolution (DE) algorithm bas...
AbstractThis paper presents the design and performance analysis of Differential Evolution (DE) algor...
For all intents and purposes all power system is of multi-area in nature. Consequently investigation...
The foremost aims of the Load Frequency Control (LFC) is to maintain the frequency at nominal value ...
This paper presents Flower Pollination (FP) algorithm for solving the optimal reactive power problem...
Automatic generation control (AGC) is major issue in power system whose main purpose is to maintain ...
In this paper, a modified form of the Proportional Integral Derivative (PID) controller known as the...
This study extensively presents the Automatic Generation Control (AGC) application of Artificial Bee...
In this paper, Proportional Integral Derivative (PID) controller is designed using Differential Evol...