Adaptive Volterra channel equalisation with lattice orthogonalisation

Author

Özden, M.T. ; Kayran, A.H. ; Panayirci, E.

Author_Institution

Electron. Warfare Res. Group, Turkisk Navy, Kocaeli, Turkey

Volume

145

Issue

2

fYear

1998

fDate

4/1/1998 12:00:00 AM

Firstpage

109

Lastpage

115

Abstract

The authors present a new recursive least-squares adaptive nonlinear equaliser based on Volterra series expansion. The main approach is to transform the nonlinear equalisation problem into an equivalent multichannel, but linear, equalisation problem. Then the multichannel input signal is completely orthogonalised using sequential processing multichannel lattice stages. With the complete orthogonalisation of the input signal, only scalar operations are required, instability problems owing to matrix inversion are avoided, and good numerical properties are achieved. Avoidance of matrix inversion and vector operations reduce the complexity considerably, and make the filter highly modular and suitable for VLSI implementation. Several experiments demonstrating the performance under different channel distortion and channel noise conditions are also included

Keywords

VLSI; Volterra series; adaptive equalisers; adaptive filters; lattice networks; least squares approximations; noise; recursive estimation; telecommunication channels; VLSI implementation; Volterra series expansion; adaptive Volterra channel equalisation; adaptive nonlinear equaliser; channel distortion; channel noise; complexity reduction; experiments; input signal orthogonalisation; lattice orthogonalisation; modular filter; multichannel input signal; multichannel linear equalisation problem; nonlinear equalisation; numerical properties; recursive least-squares; scalar operations; sequential processing multichannel lattice stages;

fLanguage

English

Journal_Title

Communications, IEE Proceedings-

Publisher

iet

ISSN

1350-2425

Type

jour

DOI

10.1049/ip-com:19981506

Filename

677595