DSP-based stability framework for the analysis of the explicit and the implicit frequency dependent finite difference time domain methods
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Institute of Electrical and Electronics Engineers Inc.
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info:eu-repo/semantics/closedAccess
Abstract
In this paper, digital signal processing (DSP) stability framework is presented for the analysis of the explicit and the implicit frequency dependent finite difference time domain (FDTD) methods. The stability of the formulations is studied in the Z-domain by using the the root-locus method. In addition, the material's conductivity is modeled in the frequency domain by a [2/2] Padé-approximation function and implemented in the discrete time domain by means of the bilinear frequency approximation technique. Numerical simulation is included to verify the obtained theoretical stability results. © 2017 IEEE.
Description
8th International Conference on Information Technology, ICIT 2017 -- 2017-05-17 through 2017-05-18 -- Amman -- 131480
Keywords
bilinear frequency approximation, Digital signal processing (DSP), finite difference time domain (FDTD), Padé-approximation, root-locus, stability analysis
