Title :
A new stable hybrid three-dimensional generalized finite difference time domain algorithm for analyzing complex structures
Author :
Marrone, Massimiliano ; Mittra, Raj
Author_Institution :
Ingegneria Dei Sistemi S.p.A., Pisa, Italy
Abstract :
In many practical situations it is necessary to hybridize two algorithms, e.g., the FDTD and FETD, to improve the accuracy of the solution without placing an inordinately heavy burden on the CPU. In order to accomplish this task without having to use a very small time step throughout the computational domain to satisfy the Courant condition (Taflove, A. and Hagness, S.C., 2000), we have proposed a stable hybridized 3D FDTD algorithm (Marrone, M. and Mittra, R., IEEE Trans. Antennas Propag., to be published). This algorithm has been developed using the cell method that enabled us to address the problems of both instability and connectivity. We present the results of some numerical tests, which serve to compare the accuracy and the computational complexity of the proposed algorithm with the same for the classical FDTD method.
Keywords :
computational complexity; conducting bodies; finite difference time-domain analysis; radar cross-sections; radar signal processing; radar theory; Courant condition; PEC sphere; RCS; cell method; computational complexity; connectivity; hybrid 3D FDTD algorithm; hybrid three-dimensional generalized finite difference time domain algorithm; instability; radar cross-section; Algorithm design and analysis; Computational complexity; Electromagnetic analysis; Finite difference methods; Finite element methods; Iterative algorithms; Partitioning algorithms; Performance evaluation; Testing; Time domain analysis;
Conference_Titel :
Antennas and Propagation Society International Symposium, 2005 IEEE
Print_ISBN :
0-7803-8883-6
DOI :
10.1109/APS.2005.1552763
