DocumentCode
1362175
Title
Tracking ill-conditioning for the RLS-lattice algorithms
Author
Bunch, J.R. ; Le Borne, R.C. ; Proudler, I.K.
Author_Institution
Dept. of Math., California Univ., San Diego, La Jolla, CA, USA
Volume
145
Issue
1
fYear
1998
fDate
2/1/1998 12:00:00 AM
Firstpage
1
Lastpage
5
Abstract
The numerical performance of lattice-based adaptive signal processing algorithms is shown to involve the conditioning of a 2×2 matrix whose off-diagonal elements contain reflection coefficients. Degraded algorithmic performance for the a posteriori recursive least squares lattice (RLSL) is shown to be attributed to the ill-conditioning of this matrix, Theoretical results are given which may be used to separate the conditioning of the underlying problem from issues concerning algorithmic stability. Although the results are not restricted to the all-pole case, for simplicity the authors make use of this well understood example since the condition number of the autocorrelation matrix will become arbitrarily close to singularity as the poles of an all-pole filter approach the unit circle. For a second-order prediction problem, four case studies of varying conditioning are provided which demonstrate the appropriateness of the theoretical bounds which analytically describe the sensitivity to perturbations in the residual update recursions. The paper illustrates the use of numerical linear algebra analysis techniques to better understand the numerical performance of algorithms in signal processing as well as emphasising that numerical performance is a function of the problem´s conditioning as well as algorithmic stability
Keywords
adaptive filters; adaptive signal processing; least squares approximations; matrix algebra; poles and zeros; prediction theory; recursive filters; tracking; 2×2 matrix; RLS-lattice algorithms; algorithmic stability; all-pole case; all-pole filter; autocorrelation matrix; lattice-based adaptive signal processing algorithms; numerical linear algebra analysis techniques; numerical performance; off-diagonal elements; perturbations; recursive least squares lattice; reflection coefficients; residual update recursions; second-order prediction problem; singularity; tracking ill-conditioning;
fLanguage
English
Journal_Title
Vision, Image and Signal Processing, IEE Proceedings -
Publisher
iet
ISSN
1350-245X
Type
jour
DOI
10.1049/ip-vis:19981747
Filename
667520
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