Title :
Adaptive Volterra filtering with complete lattice orthogonalization
Author :
Ozden, M. Tahir ; Kayran, Ahmet H. ; Panayirci, Erdal
Author_Institution :
Fac. of Electr. & Electron. Eng., Istanbul Tech. Univ., Turkey
fDate :
8/1/1996 12:00:00 AM
Abstract :
The article presents a new recursive least squares (RLS) adaptive nonlinear filter, based on the Volterra series expansion. The main approach is to transform the nonlinear filtering problem into an equivalent multichannel, but linear, filtering problem. Then, the multichannel input signal is completely orthogonalized using sequential processing multichannel lattice stages. With the complete orthogonalization of the input signal, only scalar operations are required, instability problems due to matrix inversion are avoided and good numerical properties are achieved. The avoidance of matrix inversion and vector operations reduce the complexity considerably, making the filter simple, highly modular and suitable for VLSI implementations. Several experiments demonstrating the fast convergence properties of the filter are also included
Keywords :
VLSI; Volterra series; adaptive filters; adaptive signal processing; convergence of numerical methods; digital filters; filtering theory; lattice filters; least squares approximations; nonlinear filters; recursive filters; RLS adaptive nonlinear filter; VLSI implementation; Volterra series expansion; adaptive Volterra filtering; complete lattice orthogonalization; complexity reduction; experiments; fast convergence properties; input signal; modular filter; multichannel input signal; multichannel linear filtering problem; nonlinear filtering problem; numerical properties; recursive least squares; scalar operations; sequential processing multichannel lattice stages; Adaptive filters; Convergence; Filtering; Lattices; Least squares methods; Nonlinear filters; Resonance light scattering; Signal processing; Vectors; Very large scale integration;
Journal_Title :
Signal Processing, IEEE Transactions on
