Paper Info
Title
Optimal input design for system identification in the presence of undermodeling
Abstract
An optimal input design problem for linear system identification is studied in the presence of undermodeling. To obtain a reduced-order model which approximates the true system in frequency weighted L2-norm through an open-loop experiment, an indirect identification method is adopted: first, a full-order model is identified via a prediction error method (PEM); Second, the obtained full-order model is reduced to the model of assigned structure via L2-model reduction. Then, the input spectrum can be optimized for the reduced-model identification instead of the true model by solving a linear matrix inequalities (LMIs) optimization problem. A numerical example demonstrates how the proposed method works. The result implies that the input signal should be optimized for the reduced order system not for the true system to achieve better estimation accuracy.
Year
DOI
Venue
2007
10.1109/CDC.2007.4435001
CDC
Keywords
Field
DocType
control system synthesis,linear matrix inequalities,linear systems,open loop systems,optimal systems,optimisation,reduced order systems,l2-model reduction,linear system identification,open-loop experiment,optimal input design,optimization,prediction error method,undermodeling,linear matrix inequality,system identification,model identification,linear system,optimization problem,spectrum
Mathematical optimization,Mean squared prediction error,Linear system,Matrix (mathematics),Control theory,Computer science,Linear system identification,Input design,System identification,Open-loop controller,Optimization problem
Conference
ISSN
ISBN
Citations 
0191-2216 E-ISBN : 978-1-4244-1498-7
978-1-4244-1498-7
0
PageRank 
References 
Authors
0.34
6
2
Name
Order
Citations
PageRank
H. Suzuki123831.31
Toshiharu Sugie264989.45