Identification of Errors-in-Variables Systems via Extended Compensated Least Squares for the Case of Coloured Output Noise

Identification of Errors-in-Variables Systems via Extended Compensated Least Squares for the Case of Coloured Output Noise

The paper deals with the identification of dynamic discrete-time linear time-invariant errors-in-variables systems for the case of coloured output noise. The proposed algorithm is constructed within an extended bias compensated least squares framework, where the principle of the bilinear parametrisa...

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Bibliographische Detailangaben
Hauptverfasser: Larkowski, T., Linden, J.G., Vinsonneau, B., Burnham, K.J.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
bias compensation
bilinear parametrisation
Correlation
Covariance matrix
Equations
errors-in-variables
identification
Instruments
Mathematical model
Noise
Noise measurement
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Beschreibung
Zusammenfassung:The paper deals with the identification of dynamic discrete-time linear time-invariant errors-in-variables systems for the case of coloured output noise. The proposed algorithm is constructed within an extended bias compensated least squares framework, where the principle of the bilinear parametrisation is exploited. Two standard least squares methods are utilised to separately determine, firstly, the system parameter vector and, secondly, the input measurement noise variance together with auto-correlation elements of the output noise. Since it is based on the least squares technique, the computational complexity of the algorithm is relatively low. A Monte-Carlo simulation compares the developed technique with other errors-in-variables identification methods.
DOI:10.1109/ICSEng.2008.88