The problem of paraunitary filter bank design for subband coding has received considerable attention in recent years, not least because of the energy preserving property of this class of filter banks. In this paper, we consider the design of signal-adapted, finite impulse response (FIR), paraunitary filter banks using polynomial matrix EVD (PEVD) techniques. Modifications are proposed to an iterative, time-domain PEVD method, known as the sequential best rotation (SBR2) algorithm, which enables its effective application to the problem of FIR orthonormal filter bank design for efficient subband coding. By choosing an optimisation scheme that maximises the coding gain at each stage of the algorithm, it is shown that the resulting filter bank ...
Filter Banks plays crucial role in signal processing and image processing as subband processing give...
A number of algorithms are capable of iteratively calculating a polynomial matrix eigenvalue decompo...
A number of algorithms for the iterative calculation of a polynomial matrix eigenvalue decomposition...
The problem of paraunitary (PU) filter bank design for subband coding has received considerable atte...
The problem of paraunitary filter bank design for subband coding has received considerable attention...
We consider the design of M-channel orthonormal filter banks using polynomial matrix EVD techniques....
There are an increasing number of problems that can be solved using paraunitary filter banks. The de...
In this paper, we propose an algorithm for computing an approximate polynomial matrix eigenvalue dec...
In this paper, we propose an algorithm for computing an approximate polynomial matrix eigenvalue dec...
We study the design of signal--adapted FIR paraunitary filter banks, using energy compaction as the ...
Much attention has recently been given to the construction of signal-adapted orthonormal filter bank...
Designing optimal filer banks for subband coding applications has recently attracted considerable at...
In recent years, several algorithms for the iterative calculation of a polynomial matrix eigenvalue ...
A necessary and sufficient condition for M-channel maximally decimated paraunitary FIR filter banks ...
We propose algorithms for the design of FIR compaction filters, which find applications in FIR subba...
Filter Banks plays crucial role in signal processing and image processing as subband processing give...
A number of algorithms are capable of iteratively calculating a polynomial matrix eigenvalue decompo...
A number of algorithms for the iterative calculation of a polynomial matrix eigenvalue decomposition...
The problem of paraunitary (PU) filter bank design for subband coding has received considerable atte...
The problem of paraunitary filter bank design for subband coding has received considerable attention...
We consider the design of M-channel orthonormal filter banks using polynomial matrix EVD techniques....
There are an increasing number of problems that can be solved using paraunitary filter banks. The de...
In this paper, we propose an algorithm for computing an approximate polynomial matrix eigenvalue dec...
In this paper, we propose an algorithm for computing an approximate polynomial matrix eigenvalue dec...
We study the design of signal--adapted FIR paraunitary filter banks, using energy compaction as the ...
Much attention has recently been given to the construction of signal-adapted orthonormal filter bank...
Designing optimal filer banks for subband coding applications has recently attracted considerable at...
In recent years, several algorithms for the iterative calculation of a polynomial matrix eigenvalue ...
A necessary and sufficient condition for M-channel maximally decimated paraunitary FIR filter banks ...
We propose algorithms for the design of FIR compaction filters, which find applications in FIR subba...
Filter Banks plays crucial role in signal processing and image processing as subband processing give...
A number of algorithms are capable of iteratively calculating a polynomial matrix eigenvalue decompo...
A number of algorithms for the iterative calculation of a polynomial matrix eigenvalue decomposition...