Recursive Identification of Multi-Input Multi-Output Errors-in-Variables Hammerstein Systems

Author

Bi-Qiang Mu ; Han-Fu Chen

Author_Institution

Key Lab. of Syst. & Control, Acad. of Math. & Syst. Sci., Beijing, China

Volume

60

Issue

3

fYear

2015

fDate

Mar-15

Firstpage

843

Lastpage

849

Abstract

The note considers the identification of multi-input multi-output errors-in-variables Hammerstein systems, in which both the input and output can be observed but with additive noises being ARMA processes with unknown coefficients. With the help of stochastic approximation combined with the deconvolution kernel function, the recursive algorithms are proposed for estimating coefficients of the linear subsystem and for the values of the nonlinear function. Under some reasonable conditions, all the estimates are proved to converge to the true values with probability one. These results include identification of the errors-in-variables linear systems as a special case. A simulation example is given justifying the theoretical analysis.

Keywords

MIMO systems; autoregressive moving average processes; deconvolution; linear systems; nonlinear functions; probability; recursive estimation; stochastic processes; ARMA process; additive noises; deconvolution kernel function; linear subsystem; multiinput multioutput errors-in-variable Hammerstein systems; nonlinear function; recursive algorithms; recursive identification; stochastic approximation; Convergence; Deconvolution; Density functional theory; Estimation; Kernel; Noise; Vectors; $alpha$-mixing; Hammetstein systems; errors-in-variables; recursive estimation; stochastic approximation; strong consistency;

fLanguage

English

Journal_Title

Automatic Control, IEEE Transactions on

Publisher

ieee

ISSN

0018-9286

Type

jour

DOI

10.1109/TAC.2014.2346871

Filename

6876157