Title :
Regular wavelets: a discrete-time approach
Author_Institution :
Centre National d´´Etudes des Commun., Issy-les-Moulineux, France
fDate :
12/1/1993 12:00:00 AM
Abstract :
Regularity is a new filter property, brought by wavelet theory, for perfect reconstruction octave-band filter banks. Tools for investigating its role in coding applications are provided. First, discrete-time interpretations and optimal estimates of regularity are reviewed. Then, a simple design procedure for paraunitary FIR filter banks with optimal trade-off between frequency selectivity and regularity is given. Finally, the obtained filters are used to measure the effect of regularity versus frequency selectivity in a still image compression scheme with optimized rate-distortion. In this case, regularity is shown to be more relevant than frequency selectivity, especially for short filters
Keywords :
data compression; digital filters; filtering and prediction theory; image coding; wavelet transforms; discrete-time approach; frequency selectivity; image coding; octave-band filter banks; optimal estimates; optimized rate-distortion; paraunitary FIR filter banks; perfect reconstruction filter banks; regularity; short filters; still image compression; wavelet theory; Discrete wavelet transforms; Filter bank; Filtering theory; Finite impulse response filter; Frequency measurement; Image coding; Image recognition; Image reconstruction; Low pass filters; Rate-distortion;
Journal_Title :
Signal Processing, IEEE Transactions on
