Details

Title

A Procedure for Quasi-Equiripple Linear-Phase IIR Filters Design

Journal title

International Journal of Electronics and Telecommunications

Yearbook

2010

Volume

vol. 56

Issue

No 4

Authors

Divisions of PAS

Nauki Techniczne

Publisher

Polish Academy of Sciences Committee of Electronics and Telecommunications

Date

2010

Identifier

DOI: 10.2478/v10177-010-0052-x ; eISSN 2300-1933 (since 2013) ; ISSN 2081-8491 (until 2012)

Source

International Journal of Electronics and Telecommunications; 2010; vol. 56; No 4

References

Deczky A. (1972), Synthesis of recursive digital filters using the minimum p-error criterion, IEEE Transactions on Audio and Electroacoustics, 20, 4, 257. ; Brandenstein H. (1998), Least-squares approximation of FIR by IIR digital filters, IEEE Transactions on Signal Processing, 46, 1, 21. ; Brandenstein H. (2001), Weighted least-squares approximation of FIR by IIR digital filters, IEEE Transactions on Signal Processing, 49, 3, 558. ; Jiang A. (2009), IIR digital filter design with new stability constraint based on argument principle, IEEE Transactions on Circuits and Systems I: Regular Papers, 56, 3, 583. ; Jiang A. (2007), IIR digital filter design with novel stability criterion based on argument principle, null, 2339. ; Lang M. (2000), Least-squares design of IIR filters with prescribed magnitude and phase responses and a pole radius constraint, IEEE Transactions on Signal Processing, 48, 11, 3109. ; Lim Y. (1992), A weighted least squares algorithm for quasi-equiripple FIR and IIR digital filter design, IEEE Transactions on Signal Processing, 40, 3, 551. ; Lu W. (2000), Design of stable minimax IIR digital filters using semidefinite programming, null, 355. ; Lu W. (2006), An argument-principle based stability criterion and application to the design of IIR digital filters, null, 4431. ; Lu W. (1998), A weighted least-squares method for the design of stable 1-D and 2-D IIR digital filters, IEEE Transactions on Signal Processing, 46, 1, 1. ; Matsunaga T. (2004), Design of IIR digital filters in the complex domain by transforming the desired response, IEEE Transactions on Signal Processing, 52, 7, 1975. ; Tarczyński A. (2001), A WISE method for designing IIR filters, IEEE Transactions on Signal Processing, 49, 7, 1421. ; Vuerinckx R. (1996), Design of stable IIR filters in the complex domain by automatic delay selection, IEEE Transactions on Signal Processing, 44, 9, 2339. ; Konopacki J. (2006), Filter order and group delay estimation for quasiequiripple IIR filters design, null, 271. ; Jackson L. (1994), An improved Martinez/Parks algorithm for IIR design with unequal numbers of poles and zeros, IEEE Transactions on Signal Processing, 42, 5, 1234. ; Selesnick I. (1998), Generalized digital Butterworth filter design, IEEE Transactions on Signal Processing, 46, 6, 1688. ; Konopacki J. (2008), Comparision of the linear-phase FIR and IIR filters computational complexity, Elektronika, 11, 181. ; Vargas R. (2001), On the design of <i>L<sub>P</sub></i> IIR filters with arbitrary frequency response, null, 3829.

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