18 research outputs found
A Tilted Subgrid for Two Dimensional FDTD
Get PDFAlthough the Finite Difference Time Domain (FDTD) method is well established for addressing a wide variety problems including the characterization of antenna arrays, a long standing challenge is to reduce discretization errors whileavoiding the use of impractically large numbers of cells, particularly when the structure is large and contains regions of fine detail. One solution is to use subgrids. In most published work, Cartesian subgrids are proposed which are in the same orientation as the main grid. However there is considerable benefit to allowing for the subgrid to be tilted. In this work, a method for introducing a tilted subgrid into the 2D FDTD mesh is presented and its effectiveness, accuracy and stability is demonstrated using examples. The method is readily extendable to a full 3D implementation
FDTD model performance analysis for a Cavity Slot Antenna array in a variable geometry conformal test rig
Get PDFConformal Antenna Array Modelling, FDTD Predictions and Measurements for Dual Circular Patch in Variable Geometry Conformal Antenna Array Test Rig
Get PDFEfficient and Accurate Modeling of Curved Dispersive Objects Using FDTD With Special Anisotropic Treatment
No full textAnalysis of coupled tilted slot antennas in FDTD using a novel time domain Huygens method with application to body area networks
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Analysis of a UWB hemispherical antenna array in FDTD with a Time Domain Huygens methods
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