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**Harvard**

Sjöberg, J. och Schoukens, J. (2012) *Initializing Wiener–Hammerstein models based on partitioning of the best linear approximation*.

** BibTeX **

@article{

Sjöberg2012,

author={Sjöberg, Jonas and Schoukens, Johan},

title={Initializing Wiener–Hammerstein models based on partitioning of the best linear approximation},

journal={Automatica},

issn={0005-1098},

volume={48},

issue={2},

pages={353–359},

abstract={This paper describes a new algorithm for initializing and estimating Wiener–Hammerstein models which
consist of two linear parts with a static nonlinearity in between. The algorithm makes use of the
best linear model of the system, which is a consistent estimate of the systems dynamics for Gaussian
excitations. The linear model is split in all possible ways into two sub-models. For all possible splits,
a Wiener–Hammerstein model is initialized which means that a nonlinearity is introduced in between
the two sub-models. The linear parameters of this nonlinearity can be estimated using least-squares. All
initialized models can then be ranked depending on the fit. Typically, one is only interested in the best
one, for which all parameters are fitted using prediction error minimization.
The paper explains the algorithm in detail and consistency of the initialization is proven.
Computational aspects are investigated, showing that in most realistic cases, the number of splits of the
initial linear model remains low enough to make the algorithm useful. The algorithm is illustrated on an
example where it is shown that the initialization is a tool to avoid many local minima.},

year={2012},

keywords={Wiener–Hammerstein systems, Hammerstein systems, Wiener systems, Nonlinear system identification},

}

** RefWorks **

RT Journal Article

SR Electronic

ID 154346

A1 Sjöberg, Jonas

A1 Schoukens, Johan

T1 Initializing Wiener–Hammerstein models based on partitioning of the best linear approximation

YR 2012

JF Automatica

SN 0005-1098

VO 48

IS 2

AB This paper describes a new algorithm for initializing and estimating Wiener–Hammerstein models which
consist of two linear parts with a static nonlinearity in between. The algorithm makes use of the
best linear model of the system, which is a consistent estimate of the systems dynamics for Gaussian
excitations. The linear model is split in all possible ways into two sub-models. For all possible splits,
a Wiener–Hammerstein model is initialized which means that a nonlinearity is introduced in between
the two sub-models. The linear parameters of this nonlinearity can be estimated using least-squares. All
initialized models can then be ranked depending on the fit. Typically, one is only interested in the best
one, for which all parameters are fitted using prediction error minimization.
The paper explains the algorithm in detail and consistency of the initialization is proven.
Computational aspects are investigated, showing that in most realistic cases, the number of splits of the
initial linear model remains low enough to make the algorithm useful. The algorithm is illustrated on an
example where it is shown that the initialization is a tool to avoid many local minima.

LA eng

LK http://dx.doi.org/10.1016/j.automatica.2011.07.007

LK http://publications.lib.chalmers.se/records/fulltext/154346/local_154346.pdf

OL 30