This paper deals with the radial distribution system reconfiguration problem in a multi-objective scope, aiming to determine the optimal configuration by means of minimization of active power losses and several reliability indices. A novel way to calculate these indices under a mixed-integer linear programming (MILP) approach is provided. Afterwards, an efficient implementation of the e-constraint method using lexicographic optimization is employed to solve the multi-objective optimization problem, which is formulated as a MILP problem. After the Pareto Efficient solution set is generated, a multi-attribute decision making procedure is used, namely the technique for order preference by similarity to ideal solution (TOPSIS) method, so that a...
In this paper, a mixed-integer nonlinear programming (MINLP) model for the optimal multiscenario all...
Optimal reconfiguration of electrical distribution systems is a research topic requiring solution me...
This paper deals with the problem of minimizing the losses of electrical distribution systems, in th...
This paper deals with the radial distribution system reconfiguration problem in a multi-objective sc...
This paper deals with the ra dial distribution system reconfiguration problem in a mu...
This paper deals with the distribution network reconfiguration problem in a multi-objective scope, a...
This paper deals with the distribution network recon- figuration problem in a multi-objective scope,...
Abstract—This paper deals with the distribution network recon-figuration problem in a multi-objectiv...
Distribution Systems (DS) are usually structured as weakly-meshed but the majority of them operate w...
The distribution systems (DS) reconfiguration problem is formulated in this paper as a multi-objecti...
Part 13: Energy: Decision SupportInternational audienceThe distribution systems (DS) reconfiguration...
In electrical distribution system optimisation, the presence of multiple conflicting objectives is e...
This paper presents a mixed-integer second-order conic programming (MISOCP) model to solve the recon...
Distribution systems can be operated in multiple configurations since they are possible combinations...
In this paper, a mixed-integer nonlinear programming (MINLP) model for the optimal multiscenario all...
Optimal reconfiguration of electrical distribution systems is a research topic requiring solution me...
This paper deals with the problem of minimizing the losses of electrical distribution systems, in th...
This paper deals with the radial distribution system reconfiguration problem in a multi-objective sc...
This paper deals with the ra dial distribution system reconfiguration problem in a mu...
This paper deals with the distribution network reconfiguration problem in a multi-objective scope, a...
This paper deals with the distribution network recon- figuration problem in a multi-objective scope,...
Abstract—This paper deals with the distribution network recon-figuration problem in a multi-objectiv...
Distribution Systems (DS) are usually structured as weakly-meshed but the majority of them operate w...
The distribution systems (DS) reconfiguration problem is formulated in this paper as a multi-objecti...
Part 13: Energy: Decision SupportInternational audienceThe distribution systems (DS) reconfiguration...
In electrical distribution system optimisation, the presence of multiple conflicting objectives is e...
This paper presents a mixed-integer second-order conic programming (MISOCP) model to solve the recon...
Distribution systems can be operated in multiple configurations since they are possible combinations...
In this paper, a mixed-integer nonlinear programming (MINLP) model for the optimal multiscenario all...
Optimal reconfiguration of electrical distribution systems is a research topic requiring solution me...
This paper deals with the problem of minimizing the losses of electrical distribution systems, in th...