COSINE-MODULATED FIR FILTER BANKS SATISFYING PERFECT RECONSTRUCTION

Citation
Rd. Koilpillai et Pp. Vaidyanathan, COSINE-MODULATED FIR FILTER BANKS SATISFYING PERFECT RECONSTRUCTION, IEEE transactions on signal processing, 40(4), 1992, pp. 770-783
Citations number
28
ISSN journal
1053587X
Volume
40
Issue
4
Year of publication
1992
Pages
770 - 783
Database
ISI
SICI code
1053-587X(1992)40:4<770:CFFBSP>2.0.ZU;2-B
Abstract
It is well known that FIR filter banks, satisfying the perfect reconst ruction (PR) property, can be obtained by cosine modulation of a linea r-phase prototype of length N = 2M (M is the number of channels) when certain constraints are imposed on the prototype. Recently, this resul t was extended for the case when N = 2mM (m is an arbitrary positive i nteger). In this paper, we obtain a necessary and sufficient condition on the 2M polyphase components of a linear-phase prototype filter of length N = 2mM, such that the polyphase component matrix of the modula ted filter bank is lossless. The losslessness of the polyphase compone nt matrix, in turn, is sufficient to ensure that the analysis/synthesi s system satisfies PR. Using this result, a new design procedure is pr esented (based on the two-channel lossless lattice). This enables the design of a large class of FIR-PR filter banks (and includes the N = 2 M case). It is shown that this approach requires fewer parameters to b e optimized than in the pseudo-QMF designs and in the lossless lattice based PR-QMF designs (for equal length filters in the three designs). This advantage becomes significant when designing long filters for la rge M. The design procedure and its other advantages are described in detail. Design examples and comparisons are included.