Near-field data compression for the far-field computation in FDTD

## Abstract The data‐compressing technique, which has been broadly used in signal processing, is employed to efficiently predict the far‐field pattern in a finite‐difference time‐domain (FDTD) simulation. In this paper, we present a technique by which we compress the data of a surface‐field distrib

Figure 5 a Reflected power for TE continuous line and TM x x Ž . dashed line polarizations versus frequency for an incidence angle of Ž . 45Њ. b Reflected phase polarizations in the X-and K-frequency bands. The twoscreen design met all of the specifications, was found to be robust with respect to a

A new wa¨elet-based technique to calculate radiating patterns by the FDTD method is presented. This technique has been applied to the study of a microstrip patch antenna. Results show a substantial gain both in memory storage and CPU time, while maintaining the same accuracy as the classical computa

Image reconstruction by using near-field and far-field data for an imperfectly conducting cylinder is investigated. A conducting cylinder of unknown shape and conductivity scatters the incident wave in free space and the scattered near and far fields are measured. By using measured fields, the imagi