Title :
A 3-D Interlayer-Based FDTD/NS-FDTD Connection Technique Combined With a Stable Subgrid Model for Low-Cost Simulations
Author :
Ohtani, T. ; Kanai, Yasukazu ; Kantartzis, N.V.
Abstract :
An efficient connection scheme for the stable incorporation of several instructive finite-difference time-domain (FDTD) computing models in the non-standard (NS)-FDTD method is proposed in this paper. Based on a straightforward formulation, the novel technique achieves an optimal FDTD/NS-FDTD connection via an interlayer region. Subsequently, the proposed concept is extended to a robust subgrid algorithm for the 3-D NS-FDTD method through the perfectly matched layer condition to decrease the total computational burden. The merits of the combined methodology are numerically validated by diverse applications, such as wire antennas and microwave devices.
Keywords :
finite difference time-domain analysis; microwave devices; wire antennas; 3-D NS-FDTD method; 3-D interlayer-based FDTD/NS-FDTD connection technique; FDTD computing; instructive finite-difference time-domain; low-cost simulations; microwave devices; nonstandard NS-FDTD method; perfectly matched layer condition; robust subgrid algorithm; stable subgrid model; wire antennas; Antenna radiation patterns; Computational modeling; Finite difference methods; Numerical models; Solid modeling; Time-domain analysis; Wires; Antenna radiation patterns; finite-difference time-domain (FDTD) methods; nonstandard FDTD methods; numerical analysis; subgrids;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2013.2283087
