Joint Optimal Design of Digital Filters and State-Space Realizations

Joint Optimal Design of Digital Filters and State-Space Realizations

In this brief, a procedure for digital filters design is presented. The main purpose is to show that a digital filter and its realization can be simultaneously determined such as to minimize an upper bound of the H 2 norm of the estimation error and impose a certain degree of robustness against prac...

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Veröffentlicht in:IEEE transactions on circuits and systems. 2, Analog and digital signal processing Analog and digital signal processing, 2006-12, Vol.53 (12), p.1353-1357
Hauptverfasser: Geromel, J.C., Borges, R.A.
Format: Artikel
Sprache:eng
Schlagworte:
Circuits
Design engineering
Digital filters
Estimation error
Kalman filters
Linear matrix inequalities
Linear programming
Mathematical analysis
Nonlinear filters
Norms
Optimization
Programming
Robustness
Symmetric matrices
Transfer functions
Uncertainty
Upper bound
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Beschreibung
Zusammenfassung:In this brief, a procedure for digital filters design is presented. The main purpose is to show that a digital filter and its realization can be simultaneously determined such as to minimize an upper bound of the H 2 norm of the estimation error and impose a certain degree of robustness against practical uncertainties as for instance, finite word length implementation, roundoff errors, and numerical precision. The optimal filter and its state-space realization are jointly determined from the solution of a convex programming problem expressed in terms of linear matrix inequalities. A simple illustrative example is presented for comparison purposes making clear the advantages of the reported results
ISSN:1549-7747
1057-7130
1558-3791
DOI:10.1109/TCSII.2006.885398