In this paper, we tackle the distribution network expansion planning (DNEP) problem by employing two evolutionary algorithms (EAs): the classical Genetic Algorithm (GA) and a linkage-learning EA, specifically a Gene-pool Optimal Mixing Evolutionary Algorithm (GOMEA). We furthermore develop two efficiency-enhancement techniques for these two EAs for solving the DNEP problem: a restricted initialization mechanism to reduce the size of the explorable search space and a means to filter linkages (for GOMEA) to disregard linkage groups during genetic variation that are likely not useful. Experimental results on a benchmark network show that if we may assume that the optimal network will be very similar to the starting network, restricted initiali...
This paper analyses the impact of choosing good initial populations for genetic algorithms regarding...
A major factor in the consideration of an electrical power network of the scale of a national grid i...
AbstractA major factor in the consideration of an electrical power network of the scale of a nationa...
In this paper, we tackle the distribution network expansion planning (DNEP) problem by employing two...
In this paper, we tackle the distribution network expansion planning (DNEP) problem by employing two...
This paper tackles the Distribution Network Expansion Planning (DNEP) problem that has to be solved ...
This article tackles the Distribution Network Expansion Planning (DNEP) problem that has to be solve...
Medium-voltage distribution network expansion planning involves finding the most economical adjustme...
We formulate the distribution network expansion planning (DNEP) problem as a multi-objective optimiz...
Distribution network operators require more advanced planning tools to deal with the challenges of f...
We formulate the distribution network expansion planning (DNEP) problem as a multi-objective optimiz...
Abstract — Distribution network operators require more advanced planning tools to deal with the chal...
One of the biggest problems that a distribution network (DN) must face is the constant increase in l...
The planning of distribution systems consists in determining the optimum site and size of new substa...
This paper analyses the impact of choosing good initial populations for genetic algorithms regarding...
A major factor in the consideration of an electrical power network of the scale of a national grid i...
AbstractA major factor in the consideration of an electrical power network of the scale of a nationa...
In this paper, we tackle the distribution network expansion planning (DNEP) problem by employing two...
In this paper, we tackle the distribution network expansion planning (DNEP) problem by employing two...
This paper tackles the Distribution Network Expansion Planning (DNEP) problem that has to be solved ...
This article tackles the Distribution Network Expansion Planning (DNEP) problem that has to be solve...
Medium-voltage distribution network expansion planning involves finding the most economical adjustme...
We formulate the distribution network expansion planning (DNEP) problem as a multi-objective optimiz...
Distribution network operators require more advanced planning tools to deal with the challenges of f...
We formulate the distribution network expansion planning (DNEP) problem as a multi-objective optimiz...
Abstract — Distribution network operators require more advanced planning tools to deal with the chal...
One of the biggest problems that a distribution network (DN) must face is the constant increase in l...
The planning of distribution systems consists in determining the optimum site and size of new substa...
This paper analyses the impact of choosing good initial populations for genetic algorithms regarding...
A major factor in the consideration of an electrical power network of the scale of a national grid i...
AbstractA major factor in the consideration of an electrical power network of the scale of a nationa...