The artificial intelligent controller in power system plays as most important rule for many applications such as system operation and its control specially Load Frequency Controller (LFC). The main objective of LFC is to keep the frequency and tie-line power close to their decidable bounds in case of disturbance. In this paper, parallel fuzzy PI adaptive with conventional PD technique for Load Frequency Control system was proposed. PSO optimization method used to optimize both of scale fuzzy PI and tuning of PD. Two equal interconnected power system areas were used as a test system. Simulation results show the effectiveness of the proposed controller compared with different PID and classical fuzzy PI controllers in terms of speed response a...
This paper presents a load frequency control in fourarea power systems using fuzzy gain scheduling o...
This study focuses on designing an effective intelligent control method to stabilize the net frequen...
In power systems, both active and reactive power demands are never steady. Due to sudden load chang...
Load Frequency Control (LFC) is one of the important issues in power system operation. The main obje...
Load Frequency Control (LFC) is one of power systems important requirements which maintain the zero ...
This paper presents a fuzzy application to the area of load-frequency control (LFC) using fuzzy gain...
This paper presents the optimal fuzzy controller design for load frequency control (LFC) of two area...
This paper presents how to design proportional integral controller and Fuzzy PI based controller for...
Changes in electrical load in each system lead to frequency and voltage deviations, and if these cha...
One of the main interested subjects in electric power systems is the integration of electric vehicle...
This work proposes a design of Fuzzy Proportional Integral Derivative with Filtered derivative mode ...
This study presents an application of a fuzzy gain scheduled proportional and integral (FGPI) contro...
This paper explores the potential of using soft computing methodologies in controllers and their adv...
The Load Frequency Control (LFC) problem is one of the most important subjects in the electric power...
The paper presents the controllers to regulate the system frequency. The performance of the controll...
This paper presents a load frequency control in fourarea power systems using fuzzy gain scheduling o...
This study focuses on designing an effective intelligent control method to stabilize the net frequen...
In power systems, both active and reactive power demands are never steady. Due to sudden load chang...
Load Frequency Control (LFC) is one of the important issues in power system operation. The main obje...
Load Frequency Control (LFC) is one of power systems important requirements which maintain the zero ...
This paper presents a fuzzy application to the area of load-frequency control (LFC) using fuzzy gain...
This paper presents the optimal fuzzy controller design for load frequency control (LFC) of two area...
This paper presents how to design proportional integral controller and Fuzzy PI based controller for...
Changes in electrical load in each system lead to frequency and voltage deviations, and if these cha...
One of the main interested subjects in electric power systems is the integration of electric vehicle...
This work proposes a design of Fuzzy Proportional Integral Derivative with Filtered derivative mode ...
This study presents an application of a fuzzy gain scheduled proportional and integral (FGPI) contro...
This paper explores the potential of using soft computing methodologies in controllers and their adv...
The Load Frequency Control (LFC) problem is one of the most important subjects in the electric power...
The paper presents the controllers to regulate the system frequency. The performance of the controll...
This paper presents a load frequency control in fourarea power systems using fuzzy gain scheduling o...
This study focuses on designing an effective intelligent control method to stabilize the net frequen...
In power systems, both active and reactive power demands are never steady. Due to sudden load chang...