Title :
A 4-D Subgrid Scheme for the NS-FDTD Technique Using the CNS-FDTD Algorithm With the Shepard Method and a Gaussian Smoothing Filter
Author :
Ohtani, Tadao ; Kanai, Yasushi ; Kantartzis, Nikolaos V.
Abstract :
A precise subgrid technique for the nonstandard finite-difference time-domain (NS-FDTD) method in 4-D (i.e., 3-D space and 1-D time) is proposed in this paper. The novel algorithm is efficiently blended with the Shepard scheme and a Gaussian smoothing filter to minimize the error in the interpolated values used for the spatial connection process. Moreover, the required time interpolation is performed via the complex (C)NS-FDTD approach. A key advantage of the proposed formulation is its structural simplicity, due to the prior interpolation concepts and the absence of any nonphysical convention, which enables its straightforward application to a variety of realistic problems. The numerical results validate the benefits of the method by means of different subgrid simulation scenarios.
Keywords :
finite difference time-domain analysis; interpolation; smoothing methods; 4D subgrid Scheme; CNS-FDTD algorithm; Gaussian smoothing filter; Shepard method; complex NS-FDTD approach; error minimization; nonphysical convention; nonstandard finite-difference time-domain method; spatial connection process; time interpolation; Antenna radiation patterns; Finite difference methods; Interpolation; Numerical stability; Smoothing methods; Stability analysis; Time-domain analysis; Antenna analysis; finite-difference time-domain (FDTD) methods; iterative schemes; nonstandard (NS) discretization techniques; subgrid algorithms;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2014.2360841
