Title :
Nonlinear system identification using Gaussian inputs
Author :
Koukoulas, Panos ; Kalouptsidis, Nicholas
Author_Institution :
Dept. of Inf., Athens Univ., Greece
fDate :
8/1/1995 12:00:00 AM
Abstract :
The paper is concerned with the identification of nonlinear systems represented by Volterra expansions and driven by stationary, zero mean Gaussian inputs, with arbitrary spectra that are not necessarily white. Procedures for the computation of the Volterra kernels both in the time as well as in the frequency domain are developed based on cross-cumulant information. The derived kernels are optimal in the mean squared error sense for noncausal systems. Order recursive procedures based on minimum mean squared error reduction are derived. More general input output representations that result when the Volterra kernels are expanded in a given orthogonal base are also considered
Keywords :
Gaussian processes; Volterra series; frequency-domain analysis; higher order statistics; identification; least mean squares methods; nonlinear systems; recursive estimation; signal representation; spectral analysis; time-domain analysis; Gaussian inputs; Volterra expansions; Volterra kernels; cross-cumulant information; frequency domain; input output representations; minimum mean squared error reduction; nonlinear system identification; order recursive procedures; orthogonal base; Frequency domain analysis; Kernel; Mean square error methods; Multidimensional systems; Noise measurement; Nonlinear systems; Random processes; Random variables; Signal processing; Taylor series;
Journal_Title :
Signal Processing, IEEE Transactions on
