Nonlinear system identification using multilayer perceptrons with locally recurrent synaptic structure

Author

Back, Andrew D. ; Tsoi, Ah Chung

Author_Institution

DSTO Inf. Technol. Div., Salisbury, SA, Australia

fYear

1992

fDate

31 Aug-2 Sep 1992

Firstpage

444

Lastpage

453

Abstract

It is proved that a multilayer perceptron (MLP) with infinite impulse response (IIR) synapses can represent a class of nonlinear block-oriented systems. This includes the well-known Wiener, Hammerstein, and cascade or sandwich systems. Previous methods used to model these systems such as the Volterra series representation are known to be extremely inefficient, and so the IIR MLP represents an effective method of modeling block-oriented nonlinear systems. This was demonstrated by simulations on two models within the class. The significance of the IIR MLP is that it demonstrates that a useful range of systems can be modeled by a network architecture based on the MLP and adaptive linear filters

Keywords

adaptive filters; digital filters; feedforward neural nets; identification; nonlinear systems; Hammerstein model; IIR synapses; MLP; Wiener system; adaptive linear filters; cascade systems; infinite impulse response; locally recurrent synaptic structure; multilayer perceptrons; network architecture; nonlinear block-oriented systems; sandwich systems; simulations; Adaptive filters; Adaptive signal processing; Delay effects; Finite impulse response filter; IIR filters; Information technology; Multilayer perceptrons; Neural networks; Neurons; Nonlinear systems;

fLanguage

English

Publisher

ieee

Conference_Titel

Neural Networks for Signal Processing [1992] II., Proceedings of the 1992 IEEE-SP Workshop

Conference_Location

Helsingoer

Print_ISBN

0-7803-0557-4

Type

conf

DOI

10.1109/NNSP.1992.253668

Filename

253668