@inproceedings{Rafael2008Cylindersb,
title = {Model Discretization in Radar Cross Section Simulations Mauro A. Alves1, Guilherme G. Peixoto 1Instituto de Aeron\'{a}utica e Espa\c{c}o, Divis\~{a}o de Materiais, 2Instituto Tecnol\'{o}gico de Aeron\'{a}utica, Pra\c{c}a Marechal Eduardo Gomes 50, CEP 12228-900, S\~{a}o Jos\'{e} dos Campos, SP, Brazil},
author = {Rafael J Port and Mirabel C Rezende},
url = {https://www.sige.ita.br/edicoes-anteriores/2008/st/P_3.pdf},
year = {2008},
date = {2008-01-01},
booktitle = {Simp\'{o}sio de Aplica\c{c}\~{o}es Operacionais em \'{A}reas de Defesa 2008 (SIGE2008)},
abstract = {Radar cross section (RCS) simulation software are important tools for the analysis of the RCS of several types of targets. These simulation tools can generate precise results at a relatively low cost. However, in order to obtain reliable results from these simulations, it is necessary that the target, whose RCS is being simulated, be represented by a detailed CAD model. In this paper is shown how the simulated RCS of models vary as a function of the discretization of their surface.},
keywords = {Cylinders, modeling, radar cross sections},
pubstate = {published},
tppubtype = {inproceedings}
}
Radar cross section (RCS) simulation software are important tools for the analysis of the RCS of several types of targets. These simulation tools can generate precise results at a relatively low cost. However, in order to obtain reliable results from these simulations, it is necessary that the target, whose RCS is being simulated, be represented by a detailed CAD model. In this paper is shown how the simulated RCS of models vary as a function of the discretization of their surface.
