Title :
Scattering from a large body with cracks and cavities by the fast and accurate finite-element boundary-integral method
Author :
Sheng, Xin-Qing ; Yung, Edward Kai-Ning ; Chan, Chi H. ; Jin, J.M. ; Chew, W.C.
Author_Institution :
Dept. of Electron. Eng., Hong Kong Univ., China
fDate :
8/1/2000 12:00:00 AM
Abstract :
A large body with cracks and cavities is a typical structure widely existing in realistic targets. In this paper, a newly developed fast and accurate finite-element boundary-integral (FA-FE-BI) method is applied to compute scattering by this kind of scatterer. A thorough analysis on this FA-FE-BI numerical technique is presented, clearly demonstrating that this technique has computational complexity O(N log N) and memory requirement O(N) (N is the total number of surface unknowns). An inward-looking approach is employed as a preconditioner to speed up the rate of convergence of iterative solvers for this structure. Under these techniques, a powerful code is developed for this kind of scatterer whose accuracy, efficiency, and capability is well confirmed by various numerical results.
Keywords :
boundary integral equations; computational complexity; convergence of numerical methods; cracks; electromagnetic wave scattering; finite element analysis; iterative methods; FA-FE-BI method; cavities; computational complexity; convergence rate; cracks; fast and accurate finite-element boundary-integral method; inward-looking approach; iterative solvers; large body; memory requirement; numerical technique; preconditioner; realistic targets; scattering; Computational complexity; Convergence; Electromagnetic scattering; Finite element methods; Helium; Iterative algorithms; Iterative methods; MLFMA; Physical theory of diffraction; Surface cracks;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
