Design of stable, causal, perfect reconstruction, IIR uniform DFT filter banks

Author

Klouche-Djedid, Abdesselam

Volume

48

Issue

4

fYear

2000

fDate

4/1/2000 12:00:00 AM

Firstpage

1110

Lastpage

1119

Abstract

Design procedures for stable, causal and perfect reconstruction IIR parallel uniform DFT filter banks (DFT FBs) are presented. In particular a family of IIR prototype filters is a good candidate for DFT FB, where a tradeoff between frequency selectivity and numerical properties (as measured by the Weyl-Heisenberg frames theory) could be made. Some realizations exhibiting a simple and a massively parallel and modular processing structure making a VLSI implementation very suitable are shown. In addition, some multipliers in the filters (both the analysis and synthesis) could be made; powers or sum of powers of 2, in particular for feedback loops, resulting in a good sensitivity behavior. For these reasons as well as for the use of low order IIR filters (as compared with conventional FIR filters), the overall digital filter bank structure is efficient for high data rate applications. Some design examples are provided

Keywords

IIR filters; channel bank filters; discrete Fourier transforms; signal reconstruction; DFT FB; IIR prototype filters; VLSI implementation; Weyl-Heisenberg frames theory; design procedures; digital filter bank structure; feedback loops; frequency selectivity; high data rate applications; massively parallel modular processing structure; multipliers; sensitivity; stable causal perfect reconstruction IIR uniform DFT filter banks; Digital filters; Feedback loop; Filter bank; Filtering theory; Finite impulse response filter; Frequency measurement; IIR filters; Particle measurements; Prototypes; Very large scale integration;

fLanguage

English

Journal_Title

Signal Processing, IEEE Transactions on

Publisher

ieee

ISSN

1053-587X

Type

jour

DOI

10.1109/78.827544

Filename

827544