AbstractThe development of optimization techniques in power system is to determine the sizing of Flexible AC Transmission System (FACTS) devices such as Unified Power Flow Series Compensator (UPFC) controller in improving the voltage stability and bus voltage margin. An attempt is made to modify the Particle Swarm Optimization (PSO) and Artificial Bee Colony (ABC) with Hybrid-Genetic Algorithm (H-GA) for determination of sizing of the device. Fast Voltage Stability Index (FVSI) is used to identify the location of the device to be connected. The proposed methods are implemented in IEEE 30 Bus system and its results are tabulated for each technique
This paper presents the application of Multi-Objective Genetic Algorithm to solve the Voltage Stabil...
ABSTRACT: Low frequency oscillation problems are very difficult to solve because power systems are v...
AbstractThis paper presents the application of Multi-Objective Genetic Algorithm to solve the Voltag...
The development of optimization techniques in power system is to determine the sizing of Flexible AC...
AbstractThe development of optimization techniques in power system is to determine the sizing of Fle...
This paper presents a novel technique for optimizing the FACTS devices, so as to maintain the voltag...
AbstractThis paper presents a novel technique for optimizing the FACTS devices, so as to maintain th...
Due to huge increase in power demand, power system network will lead to major problems such as volta...
Abstract: Problem statement: Voltage instability and voltage collapse have been considered as a majo...
Due to huge increase in power demand, power system network will lead to major problems such as volta...
A new approach of unified power flow controller (UPFC) optimal placement in the power system network...
Improvement of power system performance in terms of increased voltage profile and decreased transmis...
Abstract—In the present heavy load scenario, due to the presence of many small scale and large scale...
The focus of this thesis is a FACTS device known as the Unified Power Flow Controller (UPFC). With i...
ABSTRACT Mechanism of power system operations become more complex due to the increasing load demand ...
This paper presents the application of Multi-Objective Genetic Algorithm to solve the Voltage Stabil...
ABSTRACT: Low frequency oscillation problems are very difficult to solve because power systems are v...
AbstractThis paper presents the application of Multi-Objective Genetic Algorithm to solve the Voltag...
The development of optimization techniques in power system is to determine the sizing of Flexible AC...
AbstractThe development of optimization techniques in power system is to determine the sizing of Fle...
This paper presents a novel technique for optimizing the FACTS devices, so as to maintain the voltag...
AbstractThis paper presents a novel technique for optimizing the FACTS devices, so as to maintain th...
Due to huge increase in power demand, power system network will lead to major problems such as volta...
Abstract: Problem statement: Voltage instability and voltage collapse have been considered as a majo...
Due to huge increase in power demand, power system network will lead to major problems such as volta...
A new approach of unified power flow controller (UPFC) optimal placement in the power system network...
Improvement of power system performance in terms of increased voltage profile and decreased transmis...
Abstract—In the present heavy load scenario, due to the presence of many small scale and large scale...
The focus of this thesis is a FACTS device known as the Unified Power Flow Controller (UPFC). With i...
ABSTRACT Mechanism of power system operations become more complex due to the increasing load demand ...
This paper presents the application of Multi-Objective Genetic Algorithm to solve the Voltage Stabil...
ABSTRACT: Low frequency oscillation problems are very difficult to solve because power systems are v...
AbstractThis paper presents the application of Multi-Objective Genetic Algorithm to solve the Voltag...