Title :
Loop-tree implementation of the adaptive integral method (AIM) for numerically stable EM modeling from low to multi-GHz frequencies
Author :
Okhmatovski, V.I. ; Morsey, J. ; Cangellaris, A.C.
Author_Institution :
Dept. of Electr. & Comput. Eng., Illinois Univ., Urbana, IL, USA
Abstract :
The adaptive integral method (AIM) is implemented in conjunction with the loop-tree decomposition of the method of moments approximation of the electric field integral equation. The representation of the current in terms of its solenoidal and irrotational components allows for accurate, broadband electromagnetic simulation without any low-frequency numerical instability problems, while the O(NlogN) complexity and O(N) storage of the conventional AIM algorithm are preserved to provide high computational efficiency. The proposed implementation is numerically validated through its application to the electromagnetic analysis of a microstrip corporate-fed patch antenna array.
Keywords :
approximation theory; computational complexity; computational electromagnetics; electric current; electric field integral equations; method of moments; microstrip antenna arrays; trees (mathematics); AIM; EFIE; EM modeling; MoM; adaptive integral method; broadband electromagnetic simulation; computational efficiency; corporate-fed antenna array; electric field integral equation; irrotational components; loop-tree decomposition; method of moments approximation; microstrip antenna array; patch antenna array; solenoidal components; Computational efficiency; Computational modeling; Electromagnetic analysis; Frequency; Integral equations; Microstrip antenna arrays; Microstrip antennas; Moment methods; Numerical models; Patch antennas;
Conference_Titel :
Antennas and Propagation Society International Symposium, 2003. IEEE
Conference_Location :
Columbus, OH, USA
Print_ISBN :
0-7803-7846-6
DOI :
10.1109/APS.2003.1217389
