Title :
Robust parametric approach for impulse response estimation
Author :
Bhargava, Umesh K. ; Kashyap, Rangasami L.
Author_Institution :
Bhar Inc., Fort Wayne, IN, USA
fDate :
10/1/1988 12:00:00 AM
Abstract :
A parametric technique for estimating the impulse response of a linear system using input-output observations in an outlier and distributionally uncertain environment is presented. The use of various cost functions for fitting the chosen output error model are discussed. By simulation, it is shown that the parametric approach based on the use of Huber´s function as a criterion for fitting the model is robust. It is also shown that even though the parametric model for the impulse response is only an approximation to the true impulse response, the estimates from this approach still outperform the nonparametric approach in the presence of contaminated noise and low SNR
Keywords :
errors; linear systems; noise; parameter estimation; Huber´s function; contaminated noise; cost functions; distributionally uncertain environment; impulse response estimation; input-output observations; linear system; output error model; parameter estimation; parametric model; parametric technique; Computational modeling; Contamination; Convergence; Cost function; Gaussian noise; Minimization methods; Parametric statistics; Pollution measurement; Robustness; Signal processing algorithms;
Journal_Title :
Acoustics, Speech and Signal Processing, IEEE Transactions on
