@article{0b9b7199c99d4a4e9bfdd4c2f7cbac5b,
title = "Design and evaluation of curved dipoles antennas optimum",
abstract = "The following paper is shown the design and the evaluation of four different types of dipole antennas with curved forms, optimized with the purpose to obtain the greater Maximum antenna's Directivity modifying the parameters of form. The optimization method was a simple genetic algorithm (SGA) and the experimental results is presented to a fixed frequency of UHF, where the VSWR, the radiation pattern, the Maximum Gains and the magnitude of normalized printed current density of the different propose antennas is details.",
keywords = "Dipole antennas, Genetic algorithms, Method of moments",
author = "{P{\'a}ez Rueda}, {Carlos Iv{\'a}n}",
note = "Funding Information: El AGS utilizado para solucionar el presente problema se documenta en [31], en donde se utiliz{\'o} un criterio de selecci{\'o}n denominado “Clasificaci{\'o}n Geom{\'e}trica Normalizada”, en la cual todos los individuos se le asigna una probabilidad de ser escogido {\textquoteleft}Pj{\textquoteright} mediante (11), donde {\textquoteleft}q{\textquoteright} es la probabilidad de escoger el mejor individuo, {\textquoteleft}r{\textquoteright} es la jerarqu{\'i}a del individuo (r=1 es el mejor) y {\textquoteleft}p{\textquoteright} es el tama{\~n}o de la poblaci{\'o}n. Pj=q(1−q)r−1 (1−(1−q)P) (11) El operador de cruce utilizado se denomina “Cruce Aritm{\'e}tico” y produce dos hijos producto de las combinaciones lineales de sus padres mediante (12), siendo “u” una variable aleatoria uniformemente distribuida en el intervalo [0,1].",
year = "2009",
doi = "10.1109/TLA.2009.5419357",
language = "English",
volume = "7",
pages = "613--619",
journal = "IEEE Latin America Transactions",
issn = "1548-0992",
publisher = "IEEE Computer Society",
number = "6",
}