Add to ORKGThis paper contains an approach of a generalized optimization formulation regarded as genetic algorithm with a view to determining the optimal location of distributed generators in 10-bus network offering reactive power capability. It is certainly the case that the reactive power management plays a noteworthy role, when it is required to improve not just the voltage profile but the voltage stability as well. In this paper, the requisite reactive power planning has been precisely solved by the evolutionary genetic algorithm, which is based on biological metaphor, in which best individuals are selected among parents and offspring generation. In addition, genetic algorithm does not need initial information about the system to begin the searchi...
In this paper, the application of a novel and computationally enhances genetic algorithm (GA) for so...
In this paper Genetic Algorithm (GA) is used as an evolutionary tecthniques for the optimal placemen...
Increment of load demands will cause voltage decay in the system which may lead to voltage collapse ...
This paper contains an approach of a generalized optimization formulation regarded as genetic algori...
This paper deals with the injection of reactive power, which is vitally important in case of too muc...
Abstract: The management of power systems has become more difficult than earlier because power syste...
In power systems, voltage (V) and reactive power (Q) at some of the buses depend on the system situa...
In the paper the authors present a messy genetic algorithm-based optimization scheme for voltage sta...
Generators and capacitors are main reactive power sources for reactive load demands and system volta...
AbstractThis paper presents the latest discovery of problems at Transmission and Distribution system...
This paper presents a messy genetic-algorithm-based optimization scheme for SVC planning, aimed at v...
This paper presents a messy genetic-algorithm-based optimization scheme for placement of static VAR ...
In this paper, the application of a novel and computationally enhances genetic algorithm (GA) for so...
In this paper, the application of a novel and computationally enhances genetic algorithm (GA) for so...
With the rapid development of new energy technologies, distributed power generation technology has a...
In this paper, the application of a novel and computationally enhances genetic algorithm (GA) for so...
In this paper Genetic Algorithm (GA) is used as an evolutionary tecthniques for the optimal placemen...
Increment of load demands will cause voltage decay in the system which may lead to voltage collapse ...
This paper contains an approach of a generalized optimization formulation regarded as genetic algori...
This paper deals with the injection of reactive power, which is vitally important in case of too muc...
Abstract: The management of power systems has become more difficult than earlier because power syste...
In power systems, voltage (V) and reactive power (Q) at some of the buses depend on the system situa...
In the paper the authors present a messy genetic algorithm-based optimization scheme for voltage sta...
Generators and capacitors are main reactive power sources for reactive load demands and system volta...
AbstractThis paper presents the latest discovery of problems at Transmission and Distribution system...
This paper presents a messy genetic-algorithm-based optimization scheme for SVC planning, aimed at v...
This paper presents a messy genetic-algorithm-based optimization scheme for placement of static VAR ...
In this paper, the application of a novel and computationally enhances genetic algorithm (GA) for so...
In this paper, the application of a novel and computationally enhances genetic algorithm (GA) for so...
With the rapid development of new energy technologies, distributed power generation technology has a...
In this paper, the application of a novel and computationally enhances genetic algorithm (GA) for so...
In this paper Genetic Algorithm (GA) is used as an evolutionary tecthniques for the optimal placemen...
Increment of load demands will cause voltage decay in the system which may lead to voltage collapse ...