Title :
An efficient method for L-filter design
Author :
Oten, R. ; de Figueiredo, Rui J.P.
Author_Institution :
Personal Imaging Div., Conexant Syst., Newport Beach, CA, USA
Abstract :
For a given or estimated noise type, the determination of optimal L-filter coefficients is computationally intensive and extremely time consuming. Thus, even though the L-filters obtained are very successful in restoring signals corrupted by non-Gaussian noise, their on-line design in real-time applications is not practical. In this paper, a new methodology for the design of L-filters is presented in which the L-filter coefficients are obtained by approximating the covariance matrix of the ordered samples through the use of Taylor expansion. The paper also presents several examples that compare the proposed approach to the classical approach. The simulations show the value of the proposed approach.
Keywords :
approximation theory; circuit optimisation; covariance matrices; digital filters; network synthesis; noise; nonlinear filters; signal restoration; signal sampling; L-filter design; Taylor expansion; covariance matrix approximation; efficient method; estimated noise; nonGaussian noise; on-line design; optimal L-filter coefficients; ordered samples matrix; real-time applications; signal restoration; Covariance matrix; Design methodology; Distributed computing; Image restoration; Noise robustness; Nonlinear filters; Signal restoration; Statistical distributions; Statistics; Taylor series;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2002.806573
