@misc{10481/50146,
year = {2014},
url = {http://hdl.handle.net/10481/50146},
abstract = {The simulation of low-observable targets requires high accuracy, both in the geometrical discretization as well as in the numerical solution of the electromagnetic problem. In this letter, we employ the well-known NASA almond, to illustrate the accuracy of the Leap-Frog Discontinuous Galerkin method, combined with a local time stepping algorithm, comparing it with the MoM and the (2,2) FDTD methods.},
organization = {The work described in this paper and the research leading to these results
has  received  funding  from  the  European  Community’s  Seventh  Framework
Programme  FP7/2007-2013,  under  grant  agreement  no  205294  (HIRF  SE
project),  and  from  the  Spanish  National  Projects  TEC2010-20841-C04-04,
CSD2008-00068, and the Junta de Andalucia Project P09-TIC-5},
keywords = {Discontinuous Galerkin},
keywords = {Time-domain analysis},
keywords = {RADAR cross-section},
title = {DGTD for a Class of Low-Observable Targets: A Comparison With MoM and (2, 2) FDTD},
doi = {LAWP.2014.2300699},
author = {Alvarez Gonzalez, Jesús and Alonso Rodríguez, Jose Manuel and Carbajosa Cobaleda, Helena and Ruiz Cabello, Miguel and Díaz Angulo, Luis Manuel and Gómez Martín, Rafael Antonio and González García, Salvador},
}