A non-parametric approach for linear system identification using principal component analysis
A non-parametric approach for linear system identification using principal component analysis
This paper considers the applications of principal component analysis (PCA) for signal-based linear system identification. Linear time-invariant (LTI) single-input-single-output (SISO) and multi-input-multi-output (MIMO) system frequency response function (FRF) estimation problems are formulated on the basis of the eigen-value decomposition (EVD) of the input–output measurement spectral correlation matrix. It is demonstrated that resulting algorithms for the SISO and MIMO cases are equivalent to that of the maximum likelihood (ML) and the total least squares (TLS) approaches respectively. Originating from the proposed FRF estimation scheme, a moving-segment EVD procedure is developed for SISO time-varying transfer function estimation. Based on the sensitivity of the time-domain PCA to delays/shifts between signals, an extended lagged-covariance-matrix approach is introduced for delay detection from time series
principal component analysis, eigenvalue decomposition, frequency response function estimation, delay detection, time-varying transfer function, input–output covariance
1576-1600
Tan, M.H.
0f067bdc-abb1-4814-83ca-14cb1528fa07
Hammond, J.K.
9ee35228-a62c-4113-8394-1b24df97b401
2007
Tan, M.H.
0f067bdc-abb1-4814-83ca-14cb1528fa07
Hammond, J.K.
9ee35228-a62c-4113-8394-1b24df97b401
Tan, M.H. and Hammond, J.K.
(2007)
A non-parametric approach for linear system identification using principal component analysis.
Mechanical Systems and Signal Processing, 21 (4), .
(doi:10.1016/j.ymssp.2006.07.005).
Abstract
This paper considers the applications of principal component analysis (PCA) for signal-based linear system identification. Linear time-invariant (LTI) single-input-single-output (SISO) and multi-input-multi-output (MIMO) system frequency response function (FRF) estimation problems are formulated on the basis of the eigen-value decomposition (EVD) of the input–output measurement spectral correlation matrix. It is demonstrated that resulting algorithms for the SISO and MIMO cases are equivalent to that of the maximum likelihood (ML) and the total least squares (TLS) approaches respectively. Originating from the proposed FRF estimation scheme, a moving-segment EVD procedure is developed for SISO time-varying transfer function estimation. Based on the sensitivity of the time-domain PCA to delays/shifts between signals, an extended lagged-covariance-matrix approach is introduced for delay detection from time series
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Published date: 2007
Keywords:
principal component analysis, eigenvalue decomposition, frequency response function estimation, delay detection, time-varying transfer function, input–output covariance
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Local EPrints ID: 45706
URI: http://eprints.soton.ac.uk/id/eprint/45706
ISSN: 0888-3270
PURE UUID: e348e7d6-0fde-445c-a35c-dee6eb1d4c72
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Date deposited: 17 Apr 2007
Last modified: 15 Mar 2024 09:12
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Author:
M.H. Tan
Author:
J.K. Hammond
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