Title :
Subspace-based blind identification of IIR wiener systems
Author :
Gomez, Juan C. ; Baeyens, Enrique
Author_Institution :
Lab. for Syst. Dynamics & Signal Process., Univ. Nac. de Rosario, Rosario, Argentina
Abstract :
A new subspace method for the blind (i.e., based only on output data) identification of Single Input Single Output Wiener models is presented in this paper. The Wiener model consists of the cascade of a Linear Time Invariant (LTI) system followed by a zero-memory nonlinear element. The linear block in the Wiener model is given an Infinite Impulse Response (IIR) representation using orthonormal bases with fixed poles, while the static nonlinearity is represented using nonlinear basis functions. Basis coefficients (both of the linear and nonlinear blocks) are estimated in closed form, up to a scalar factor, by first computing the column space of an equivalent output Hankel matrix using Singular Value Decomposition (SVD), and then solving two Least Squares problems also resorting to SVDs. The performance of the proposed algorithm is illustrated through a simulation example.
Keywords :
Hankel matrices; IIR filters; Wiener filters; blind source separation; least squares approximations; singular value decomposition; transient response; Hankel matrix; IIR Wiener systems; fixed poles; infinite impulse response representation; least squares problems; linear time invariant system; nonlinear basis functions; nonlinear blocks; orthonormal bases; single input single output Wiener models; singular value decomposition; static nonlinearity; subspace-based blind identification; zero-memory nonlinear element; Computational modeling; Europe; Least squares approximations; Linear systems; Mathematical model; Signal processing;
Conference_Titel :
Signal Processing Conference, 2007 15th European
Conference_Location :
Poznan
Print_ISBN :
978-839-2134-04-6
