Title :
Iterative Frequency-Weighted Filtering and Smoothing Procedures
Author :
Einicke, Garry A.
Author_Institution :
Commonwealth Sci. & Ind. Res. Organ., Pullenvale, QLD, Australia
Abstract :
Minimum-variance filters and smoothers exhibit performance degradations when they are designed with inexact models and noise statistics. Filter and smoother estimation errors are assumed herein to be generated by a first-order moving-average system. This assumed system is identified and used to design a frequency weighting function to improve mean square error performance. It is shown under prescribed conditions that the sequence of frequency-weighted estimation error variances are nonincreasing. An example is presented which demonstrates the efficacy of repeated frequency weighting iterations.
Keywords :
iterative methods; mean square error methods; smoothing methods; first-order moving-average system; frequency weighting function; frequency-weighted estimation error variances; inexact models; iterative frequency-weighted filtering; mean square error performance; minimum-variance filters; noise statistics; smoother estimation errors; smoothing procedures; Estimation error; Frequency control; Frequency estimation; Information filters; Noise; Frequency shaping; frequency-weighting; optimal filtering; optimal smoothing;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2014.2341641
