This paper develops and illustrates a new maximum-likelihood based method for the identification of Hammerstein-Wiener model structures. A central aspect is that a very general situation is considered wherein multivariable data, non-invertible Hammerstein and Wiener nonlinearities, and colored stochastic disturbances both before and after the Wiener nonlinearity are all catered for. The method developed here addresses the blind Wiener estimation problem as a special case.Funding Agencies|Australian Research Council||project Calibrating Nonlinear Dynamical Models|621-2010-5876|CADICS, a Linneaus Center||Swedish Research Council||</p
The Wiener model is a block oriented model, having a linear dynamic system followed by a static nonl...
The Wiener model is a block oriented model, having a linear dynamic system followed by a static nonl...
In nonlinear system identification, the system is often represented as a series of blocks linked tog...
This paper develops and illustrates a new maximum-likelihood based method for the identification of ...
This paper proposes a new blind approach to identification of Hammerstein-Wiener models, where a lin...
The identification problem for non-linear Wiener-Hammerstein-type systems is con-sidered. Unlike alt...
Wiener-type systems are widely used model structures, consisting of a series connection of a dynamic...
Identification of SISO N-L-N Hammerstein-Wiener model is studied. First the model structure is motiv...
This paper examines the use of a so-called "generalised Hammerstein-Wiener" model structure that is ...
System identification is very important to technical and nontechnical areas. All physical systems ar...
\u3cp\u3eWiener-Hammerstein models are flexible, well known and often studied. The main challenge in...
The identification task consists of making a model of a system from measured input and output signal...
The identification problem for non-linear Wiener-Hammerstein-type systems is considered. Unlike alte...
Standard Hammerstein-Wiener models consist of a linear subsystem sandwiched by two memoryless nonlin...
Wiener-Hammerstein systems consist of a series connection including a nonlinear static element sandw...
The Wiener model is a block oriented model, having a linear dynamic system followed by a static nonl...
The Wiener model is a block oriented model, having a linear dynamic system followed by a static nonl...
In nonlinear system identification, the system is often represented as a series of blocks linked tog...
This paper develops and illustrates a new maximum-likelihood based method for the identification of ...
This paper proposes a new blind approach to identification of Hammerstein-Wiener models, where a lin...
The identification problem for non-linear Wiener-Hammerstein-type systems is con-sidered. Unlike alt...
Wiener-type systems are widely used model structures, consisting of a series connection of a dynamic...
Identification of SISO N-L-N Hammerstein-Wiener model is studied. First the model structure is motiv...
This paper examines the use of a so-called "generalised Hammerstein-Wiener" model structure that is ...
System identification is very important to technical and nontechnical areas. All physical systems ar...
\u3cp\u3eWiener-Hammerstein models are flexible, well known and often studied. The main challenge in...
The identification task consists of making a model of a system from measured input and output signal...
The identification problem for non-linear Wiener-Hammerstein-type systems is considered. Unlike alte...
Standard Hammerstein-Wiener models consist of a linear subsystem sandwiched by two memoryless nonlin...
Wiener-Hammerstein systems consist of a series connection including a nonlinear static element sandw...
The Wiener model is a block oriented model, having a linear dynamic system followed by a static nonl...
The Wiener model is a block oriented model, having a linear dynamic system followed by a static nonl...
In nonlinear system identification, the system is often represented as a series of blocks linked tog...