Signal-processing techniques to reduce the sinusoidal steady-state error in the FDTD method

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Signal-processing_techniques_to_reduce_the_sinusoidal_steady-state_error_in_the_FDTD_method.pdf (258.19 KB)

Date

2000-04

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Source Title

IEEE Transactions on Antennas and Propagation

Print ISSN

0018–926X

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IEEE

Volume

48

Issue

4

Pages

585 - 593

Language

English

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Article

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Abstract

Techniques to improve the accuracy of the finite-difference time-domain (FDTD) solutions employing sinusoidal excitations are developed. The FDTD computational domain is considered as a sampled system and analyzed with respect to the aliasing error using the Nyquist sampling theorem. After a careful examination of how the high-frequency components in the excitation cause sinusoidal steady-state errors in the FDTD solutions, the use of smoothing windows and digital low-pass filters is suggested to reduce the error. The reduction in the error is demonstrated for various cases.

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Terms—Aliasing, Digital filters, Electromagnetic scattering, Finite-difference time-domain, Incident-field array, Sampling, Signal processing, Smoothing windows

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http://hdl.handle.net/11693/48756

Published Version (Please cite this version)

https://doi.org/10.1109/8.843673

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Scholarly Publications - Electrical and Electronics Engineering