Application of cubic constraint approximation in the recursive design of FIR filters subject to output envelope constraints

Author

Zheng, Wei Xing

Author_Institution

Sch. of Sci., Univ. of Western Sydney, Sydney, NSW, Australia

Volume

48

Issue

5

fYear

2001

fDate

5/1/2001 12:00:00 AM

Firstpage

651

Lastpage

656

Abstract

The smoothing function used in the constraint approximation plays an important role in the adaptive envelope-constrained (EC) filtering algorithms presented. In this paper, a cubic smoothing function is proposed to implement the constraint approximation and the simplified line search technique is introduced to speed up the convergence rate. It is shown that the performance of the adaptive EC filtering algorithms can be greatly improved due to the use of the cubic constraint approximation and simplified line searches. In particular, the second-order convergence is established for the Newton-Raphson type algorithm. Numerical results are included to illustrate the effectiveness of these adaptive EC filtering algorithms

Keywords

FIR filters; Newton-Raphson method; adaptive signal processing; constraint theory; recursive filters; smoothing methods; FIR filters; Newton-Raphson type algorithm; convergence rate; cubic constraint approximation; line search technique; output envelope constraints; recursive design; second-order convergence; smoothing function; Adaptive filters; Additive noise; Algorithm design and analysis; Convergence; Filtering algorithms; Finite impulse response filter; Least squares approximation; Quadratic programming; Signal processing algorithms; Smoothing methods;

fLanguage

English

Journal_Title

Circuits and Systems I: Fundamental Theory and Applications, IEEE Transactions on

Publisher

ieee

ISSN

1057-7122

Type

jour

DOI

10.1109/81.922471

Filename

922471