The element-wise weighted total least squares problem

The element-wise weighted total least squares problem

A new technique for parameter estimation is considered in a linear measurement error model AX approx B, A = A0 + tilde A, B = B0 + tilde B, with row-wise independent and non-identically distributed measurement errors tilde A, tilde B. The total least squares method yields an inconsistent estimate of...

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Bibliographic Details
Main Authors: Markovsky, I. (Author), Rastello, M. (Author), Premoli, P. (Author), Van Huffel, S. (Author)
Other Authors: Barlow, J. (Contributor)
Format: Article
Language:English
Published: 2006-01.
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Summary:A new technique for parameter estimation is considered in a linear measurement error model AX approx B, A = A0 + tilde A, B = B0 + tilde B, with row-wise independent and non-identically distributed measurement errors tilde A, tilde B. The total least squares method yields an inconsistent estimate of the parameter X in this case. We formulate a modified total least squares problem, called element-wise weighted total least squares, which provides a consistent estimator, and propose two iterative algorithms for its solution. A local convergence and the rate of convergence of the algorithms is discussed. As a computationally cheap initial approximation we use the generalized total least squares estimate.

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