Add to ORKGA technique is presented for planning the future reactive power requirements of a power system. The problem is formulated as a mathematical optimization problem based on a linearized power system model. An efficient dual simplex linear programming technique coupled with relaxation and contingency analysis is used for solution. The approach reduces the dimensionality of the problem significantly, thereby allowing for more rapid calculations and more case studies to be performed. The effectiveness of the scheme is demonstrated using the IEEE 30-bus and IEEE 188-bus system
This paper deals with the injection of reactive power, which is vitally important in case of too muc...
This paper investigates the applicability of the particle swarm optimization (PSO) algorithm to the ...
To deal with extreme overvoltage scenarios with small probabilities in regional power grids, the tra...
A technique is presented for planning the future reactive power requirements of a power system. The ...
A technique is presented for planning the future reactive power requirements of a power system. The ...
An improvised algorithm is presented for optimal VAr allocation in a large power system using a lin...
This paper outlines the optimization problem of real and reactive power, and presents the new algori...
This paper outlines the optimization problem of real and reactive power, and presents the new algori...
A computer-aided algorithm is developed for the management of reactive power flow in an electric pow...
This paper outlines the Optimization problem of real and reactive power, and presents the new algori...
This paper outlines the Optimization problem of real and reactive power, and presents the new algori...
This paper outlines the Optimization problem of real and reactive power, and presents the new algori...
Abstract:- Evolutionary Programming (EP) optimization technique is recently applied in solving elect...
This article introduces a Hybrid Intervention Scheme Based Optimization (HIBO) algorithm solving an ...
AbstractThis paper presents a multi-objective optimization methodology to solve the Optimal Reactive...
This paper deals with the injection of reactive power, which is vitally important in case of too muc...
This paper investigates the applicability of the particle swarm optimization (PSO) algorithm to the ...
To deal with extreme overvoltage scenarios with small probabilities in regional power grids, the tra...
A technique is presented for planning the future reactive power requirements of a power system. The ...
A technique is presented for planning the future reactive power requirements of a power system. The ...
An improvised algorithm is presented for optimal VAr allocation in a large power system using a lin...
This paper outlines the optimization problem of real and reactive power, and presents the new algori...
This paper outlines the optimization problem of real and reactive power, and presents the new algori...
A computer-aided algorithm is developed for the management of reactive power flow in an electric pow...
This paper outlines the Optimization problem of real and reactive power, and presents the new algori...
This paper outlines the Optimization problem of real and reactive power, and presents the new algori...
This paper outlines the Optimization problem of real and reactive power, and presents the new algori...
Abstract:- Evolutionary Programming (EP) optimization technique is recently applied in solving elect...
This article introduces a Hybrid Intervention Scheme Based Optimization (HIBO) algorithm solving an ...
AbstractThis paper presents a multi-objective optimization methodology to solve the Optimal Reactive...
This paper deals with the injection of reactive power, which is vitally important in case of too muc...
This paper investigates the applicability of the particle swarm optimization (PSO) algorithm to the ...
To deal with extreme overvoltage scenarios with small probabilities in regional power grids, the tra...