Title :
A Composite Cell-Multiresolution Time-Domain Technique for the Design of Antenna Systems Including Electromagnetic Band Gap and Via-Array Structures
Author :
Bushyager, Nathan ; Papapolymerou, John ; Tentzeris, Manos M.
Author_Institution :
Georgia Electron. Design Center, Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
In this paper, the Haar-wavelet multiresolution time-domain (MRTD) scheme is modified in a way that enables the modeling of arbitrarily positioned metals within a cell, leading to the development of composite cells that are useful for the simulation of highly detailed structures. The technique is applied through the use of wavelet reconstruction and deconstruction matrices to explicitly set field values at perfect electrical conductor interfaces. Using this scheme, MRTD can be used to drastically reduce the number of cells needed to simulate complex antenna geometries including radio-frequency microelectromechanical systems, electronic bandgaps, and via arrays, while taking full advantage of the technique´s inherent time- and space-adaptive gridding.
Keywords :
Haar transforms; adaptive antenna arrays; conducting bodies; finite difference time-domain analysis; micromechanical devices; photonic band gap; wavelet transforms; EBG structures; FDTD; Haar-wavelet multiresolution time-domain scheme; MRTD; SHS; antenna geometry; antenna systems; array structures; composite cell; electronic bandgap; finite-difference time-domain method; perfect electrical conductor interface; radio-frequency microelectromechanical systems; soft-and-hard-surface; time-space-adaptive gridding; wavelet reconstruction; Circuit simulation; Conductors; Electronics packaging; Finite difference methods; Metamaterials; Microwave devices; Periodic structures; Photonic band gap; Time domain analysis; Wavelet transforms; Antenna systems; Haar transforms; electronic bandgap (EBG) structures; finite-difference time-domain (FDTD) method; multiresolution analysis; multiresolution time-domain (MRTD) method; soft-and-hard-surface (SHS); time-domain techniques; via-array structures; wavelet transforms;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2005.851832
