This study proposes the use of a non-linear branch-and-bound (B&B) algorithm to solve the reactive power dispatch and planning problem of an electrical power system. The problem is formulated as a mixed integer non-linear programming (MINLP) problem. The MINLP is relaxed resulting in a set of non-linear programming (NLP) problems, which are solved at each node of the B&B tree through a primal dual-interior point algorithm. The non-linear B&B algorithm proposed has special fathoming criteria to deal with non-linear and multimodal optimisation models. The fathoming tests are redefined, adding a safety margin value to the objective function of each NLP problem before they are fathomed through the objective function criteria, avoiding convergen...
Power system stability issues have always been of utmost importance and interests. Since the restruc...
A simple and efficient method for eliminating branch overloads in power systems is presented in this...
This paper deals with a new dispatching and optimisation of reactive power sources in power systems....
This paper presents the Benders decomposition technique and Branch and Bound algorithm used in the r...
This paper presents the Benders decomposition technique and Branch and Bound algorithm used in the r...
In this paper a novel Branch and Bound (B&B) algorithm to solve the transmission expansion planning ...
This paper outlines the optimization problem of real and reactive power, and presents the new algori...
This paper presents an algorithm to solve the network transmission system expansion planning problem...
This article introduces a Hybrid Intervention Scheme Based Optimization (HIBO) algorithm solving an ...
This paper outlines the Optimization problem of real and reactive power, and presents the new algori...
This paper proposes a bi-level branch-and-bound ((B&B) method to solve the economic dispatch problem...
Neste trabalho, propõe-se um algoritmo Branch and Bound não linear para resolver o problema de plane...
Este trabalho propõe o desenvolvimento de uma nova abordagem para a resolução do problema de planeja...
A technique is presented for planning the future reactive power requirements of a power system. The ...
The optimal reactive power dispatch (ORPD) problem plays a key role in daily power system operations...
Power system stability issues have always been of utmost importance and interests. Since the restruc...
A simple and efficient method for eliminating branch overloads in power systems is presented in this...
This paper deals with a new dispatching and optimisation of reactive power sources in power systems....
This paper presents the Benders decomposition technique and Branch and Bound algorithm used in the r...
This paper presents the Benders decomposition technique and Branch and Bound algorithm used in the r...
In this paper a novel Branch and Bound (B&B) algorithm to solve the transmission expansion planning ...
This paper outlines the optimization problem of real and reactive power, and presents the new algori...
This paper presents an algorithm to solve the network transmission system expansion planning problem...
This article introduces a Hybrid Intervention Scheme Based Optimization (HIBO) algorithm solving an ...
This paper outlines the Optimization problem of real and reactive power, and presents the new algori...
This paper proposes a bi-level branch-and-bound ((B&B) method to solve the economic dispatch problem...
Neste trabalho, propõe-se um algoritmo Branch and Bound não linear para resolver o problema de plane...
Este trabalho propõe o desenvolvimento de uma nova abordagem para a resolução do problema de planeja...
A technique is presented for planning the future reactive power requirements of a power system. The ...
The optimal reactive power dispatch (ORPD) problem plays a key role in daily power system operations...
Power system stability issues have always been of utmost importance and interests. Since the restruc...
A simple and efficient method for eliminating branch overloads in power systems is presented in this...
This paper deals with a new dispatching and optimisation of reactive power sources in power systems....