Title :
Minimum-variance and maximum-likelihood recursive waveshaping
Author :
Mendel, Jerry M.
Author_Institution :
University of Southern California, Los Angeles, California
Abstract :
In this paper we develop optimal recursive waveshaping filters in the framework of estimation theory and state-variable models. We develop a linear minimum-variance waveshaper and a nonlinear maximum-likelihood waveshaper. Both waveshapers are comprised of two components:(1) stochastic inversion and (2) waveshaping. The former is performed by means of minimum-variance deconvolution. Simulation results are given which illustrate results that can be obtained by both waveshapers. In retrospect, we view the minimum-variance results of this paper as the recursive counterparts to those presented by Treitel and Robinson (13), which are for finite-impulse response waveshaping.
Keywords :
Estimation theory; Filtering theory; Gaussian noise; Information filtering; Information filters; Maximum likelihood estimation; Shape; Signal processing; Stochastic processes; White noise;
Conference_Titel :
Acoustics, Speech, and Signal Processing, IEEE International Conference on ICASSP '82.
DOI :
10.1109/ICASSP.1982.1171823
