A property of FIR (finite-impulse response) lossless systems is introduced, leading to substantial improvement in the sign procedure for perfect-reconstruction QMF (quadrature mirror filter) banks. The property enables the designer to initialize the coefficients of a lattice structure (which characterizes the analysis bank), in such a way as to speed up to the convergence. A design example is provided. Compared to other methods, the proposed method is shown to converge faster, and always leads to much improved attenuation characteristics for a given filter length
A new mixed IIR/FIR near-perfect-reconstruction quadrature mirror filter bank is proposed. The desig...
The purpose of this work is the design of FIR QMF (Quadrature Mirror Filters) filters of perfect rec...
This paper studies the design of quadrature mirror filter (QMF) banks via frequency domain optimizat...
A property of FIR (finite-impulse response) lossless systems is introduced, leading to substantial i...
n this paper, a scheme for perfect reconstruction in M channel, maximally decimated QMF banks is fir...
A technique is developed for the design of analysis filters in an M-channel maximally decimated, per...
Structures are presented for the perfect-reconstruction quadrature mirror filter bank that are based...
Based on the concept of losslessness in digital filter structures, this paper derives a general clas...
Two perfect-reconstruction structures for the two-channel quadrature mirror filter (QMF) bank, free ...
A lattice structure and an algorithm are presented for the design of two-channel QMF (quadrature mir...
Abstract-New structures are presented for the perfect-reconstruc-tion QMF bank, based on lossless bu...
This paper considers the design of quadrature mirror filter (QMF) banks whose analysis and synthesis...
Abstract-A recently reported procedure for the design of M-chan-ne1 perfect-reconstruction quadratur...
The authors present a perfect reconstruction FIR (finite-impulse response) linear-phase lattice stru...
The authors obtain a necessary and sufficient condition on the 2M (M = number of channels) polyphase...
A new mixed IIR/FIR near-perfect-reconstruction quadrature mirror filter bank is proposed. The desig...
The purpose of this work is the design of FIR QMF (Quadrature Mirror Filters) filters of perfect rec...
This paper studies the design of quadrature mirror filter (QMF) banks via frequency domain optimizat...
A property of FIR (finite-impulse response) lossless systems is introduced, leading to substantial i...
n this paper, a scheme for perfect reconstruction in M channel, maximally decimated QMF banks is fir...
A technique is developed for the design of analysis filters in an M-channel maximally decimated, per...
Structures are presented for the perfect-reconstruction quadrature mirror filter bank that are based...
Based on the concept of losslessness in digital filter structures, this paper derives a general clas...
Two perfect-reconstruction structures for the two-channel quadrature mirror filter (QMF) bank, free ...
A lattice structure and an algorithm are presented for the design of two-channel QMF (quadrature mir...
Abstract-New structures are presented for the perfect-reconstruc-tion QMF bank, based on lossless bu...
This paper considers the design of quadrature mirror filter (QMF) banks whose analysis and synthesis...
Abstract-A recently reported procedure for the design of M-chan-ne1 perfect-reconstruction quadratur...
The authors present a perfect reconstruction FIR (finite-impulse response) linear-phase lattice stru...
The authors obtain a necessary and sufficient condition on the 2M (M = number of channels) polyphase...
A new mixed IIR/FIR near-perfect-reconstruction quadrature mirror filter bank is proposed. The desig...
The purpose of this work is the design of FIR QMF (Quadrature Mirror Filters) filters of perfect rec...
This paper studies the design of quadrature mirror filter (QMF) banks via frequency domain optimizat...