Overview of total least squares methods
Overview of total least squares methods
We review the development and extensions of the classical total least squares method and describe algorithms for its generalization to weighted and structured approximation problems. In the generic case, the classical total least squares problem has a unique solution, which is given in analytic form in terms of the singular value decomposition of the data matrix. The weighted and structured total least squares problems have no such analytic solution and are currently solved numerically by local optimization methods. We explain how special structure of the weight matrix and the data matrix can be exploited for efficient cost function and first derivative computation. This allows to obtain computationally efficient solution methods. The total least squares family of methods has a wide range of applications in system theory, signal processing, and computer algebra. We describe the applications for deconvolution, linear prediction, and errors-in-variables system identification.
Total least squares, Orthogonal regression, Errors-in-variables model, Deconvolution, Linear prediction, System identification.
2283-2302
Markovsky, Ivan
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Van Huffel, Sabine
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Van Huffel, S
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Soderstrom, T
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Vaccaro, R
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Markovsky, I
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2007
Markovsky, Ivan
7d632d37-2100-41be-a4ff-90b92752212c
Van Huffel, Sabine
8814fa15-3922-4a5a-9ba5-c2ea63ceeaf7
Van Huffel, S
8cd8cce3-d548-4ad2-8a2f-58cf263ba650
Soderstrom, T
c1247e3f-9c85-43df-8e5a-3699649a5163
Vaccaro, R
0d8fcafb-0b44-4d5b-a90a-f7f4b937a8c6
Markovsky, I
905841bf-2dc6-43a5-b592-1702f1b31d1b
Markovsky, Ivan and Van Huffel, Sabine
,
Van Huffel, S, Soderstrom, T, Vaccaro, R and Markovsky, I
(eds.)
(2007)
Overview of total least squares methods.
Signal Processing, 87, .
Abstract
We review the development and extensions of the classical total least squares method and describe algorithms for its generalization to weighted and structured approximation problems. In the generic case, the classical total least squares problem has a unique solution, which is given in analytic form in terms of the singular value decomposition of the data matrix. The weighted and structured total least squares problems have no such analytic solution and are currently solved numerically by local optimization methods. We explain how special structure of the weight matrix and the data matrix can be exploited for efficient cost function and first derivative computation. This allows to obtain computationally efficient solution methods. The total least squares family of methods has a wide range of applications in system theory, signal processing, and computer algebra. We describe the applications for deconvolution, linear prediction, and errors-in-variables system identification.
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Published date: 2007
Keywords:
Total least squares, Orthogonal regression, Errors-in-variables model, Deconvolution, Linear prediction, System identification.
Organisations:
Southampton Wireless Group
Identifiers
Local EPrints ID: 263855
URI: http://eprints.soton.ac.uk/id/eprint/263855
ISSN: 0165-1684
PURE UUID: 0612ecb6-9ec2-4f3c-bda8-f621cf56965d
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Date deposited: 04 Apr 2007
Last modified: 14 Mar 2024 07:38
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Contributors
Author:
Ivan Markovsky
Author:
Sabine Van Huffel
Editor:
S Van Huffel
Editor:
T Soderstrom
Editor:
R Vaccaro
Editor:
I Markovsky
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