Title :
Model-based parameter estimation in electromagnetics. III. Applications to EM integral equations
Author :
Miller, Edmund K.
Author_Institution :
3225 Calle Celestial, Santa Fe, NM, USA
fDate :
6/1/1998 12:00:00 AM
Abstract :
For pt.II see ibid., vol.40, no.2, p.51-66 (1998). This article has considered the rationale and illustrated the application of model-based parameter estimation (MBPE) to achieve reduced-order representations of electromagnetic observables via fitting models, the model-based part of MBPE, that derive from the physics of EM fields. The parameter-estimation part of MBPE is the process of obtaining numerical values for the coefficients of the fitting model by matching or fitting it to sampled values of the EM observable of interest. Although a wider range of fitting models are feasible, attention here is focused on what are termed waveform-domain models, comprised of exponential series, and spectral-domain models, comprised of pole series. These kinds of fitting models are shown to provide natural basis functions for many kinds of EM observables, whether these observables are based on experimental measurement or numerical computation
Keywords :
electromagnetic field theory; integral equations; parameter estimation; reduced order systems; EM fields; EM integral equations; MBPE; computational electromagnetics; electromagnetics; exponential series; fitting; fitting model; matching; model-based parameter estimation; pole series; reduced-order representations; spectral-domain models; waveform-domain models; Admittance; Context modeling; Electromagnetic modeling; Finite difference methods; Frequency estimation; Impedance; Integral equations; Parameter estimation; Physics; Sampling methods;
Journal_Title :
Antennas and Propagation Magazine, IEEE
