Title :
Data adaptive rank-shaping methods for solving least squares problems
Author :
Thorpe, Anthony J. ; Scharf, Louis L.
Author_Institution :
Anal. Surveys Inc., Colorado Springs, CO, USA
fDate :
7/1/1995 12:00:00 AM
Abstract :
There are two types of problems in the theory of least squares signal processing: parameter estimation and signal extraction. Parameter estimation is called “inversion” and signal extraction is called “filtering”. In this paper, we present a unified theory of rank shaping for solving overdetermined and underdetermined versions of these problems. We develop several data-dependent rank-shaping methods and evaluate their performance. Our key result is a data-adaptive Wiener filter that automatically adjusts its gains to accommodate realizations that are a priori unlikely. The adaptive filter dramatically outperforms the Wiener filter on a typical realizations and just slightly under-performs it on typical realizations. This is the most one can hope for in a data-adaptive filter
Keywords :
Wiener filters; adaptive filters; adaptive signal processing; filtering theory; least squares approximations; parameter estimation; adaptive filter; data adaptive rank-shaping methods; data-adaptive Wiener filter; data-adaptive filter; filtering; inversion; least squares problems; least squares signal processing; mean square error reduction; overdetermined problems; parameter estimation; performance evaluation; signal extraction; underdetermined problems; Adaptive filters; Adaptive signal processing; Data mining; Helium; Least squares approximation; Least squares methods; Nonlinear filters; Parameter estimation; Signal processing; Wiener filter;
Journal_Title :
Signal Processing, IEEE Transactions on
