TitleA Procedure for Quasi-Equiripple Linear-Phase IIR Filters Design
Journal titleInternational Journal of Electronics and Telecommunications
Divisions of PASNauki Techniczne
International Journal of Electronics and Telecommunications (IJET, eISSN 2300-1933, untill 2013 also print ISSN 2081-8491) is a periodical of Electronics and Telecommunications Committee of Polish Academy of Sciences and it is published by Warsaw Science Publishers of PAS. It continues tradition of the Electronics and Telecommunications Quarterly (ISSN 0867-6747) established in 1955 as the Rozprawy Elektrotechniczne. The IJET is a scientific periodical where papers present the results of original, theoretical, experimental and reviewed works. They consider widely recognized aspects of modern electronics, telecommunications, microelectronics, optoelectronics, radioelectronics and medical electronics.
The authors are outstanding scientists, well‐known experienced specialists as well as young researchers – mainly candidates for a doctor's degree. The papers present original approaches to problems, interesting research results, critical estimation of theories and methods, discuss current state or progress in a given branch of technology and describe development prospects. All the papers published in IJET are reviewed by international specialists who ensure that the publications are recognized as author's scientific output.
The printed periodical is distributed among all those who deal with electronics and telecommunications in national scientific centers as well as in numeral foreign institutions, and it is subscribed by many specialists and libraries. Its electronic version is available at http://ijet.pl.
The papers received are published within half a year if the cooperation between author and the editorial staff is efficient. The papers may be submitted to the editorial office by the journal web page http://ijet.pl.
PublisherPolish Academy of Sciences Committee of Electronics and Telecommunications
IdentifierISSN 2081-8491 (until 2012) ; eISSN 2300-1933 (since 2013)
ReferencesDeczky 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.