Title :
Computation of the coding gain for subband coders
Author :
Calvagno, Giancarlo ; Mian, Gian Antonio ; Rinaldo, Roberto
Author_Institution :
Dipartimento di Elettronica e Inf., Padova Univ., Italy
fDate :
4/1/1996 12:00:00 AM
Abstract :
A procedure to evaluate the coding gain for 2-D subband systems is explicitly presented. The technique operates in the signal domain and requires the knowledge of the input process auto-correlation function. Both the case of uniform subband and pyramid decomposition are considered. In the case of a separable input process spectrum, the evaluation can be performed by considering appropriately defined 1-D systems, thus, making the procedure very convenient in terms of computational complexity. Using a model that has been recently derived for difference images in motion-compensated image sequence coders, we compare the performance of several filter banks and transform coders in terms of coding gain and asymptotic rate-distortion figures. The results for intraframe and interframe coding show that uniform subband coders can have a performance superior to that of transform coders. Pyramidal schemes appear to have a slightly worse performance
Keywords :
band-pass filters; computational complexity; image coding; image representation; image sequences; motion compensation; rate distortion theory; transform coding; 1D systems; 2D subband systems; asymptotic rate-distortion figures; coding gain computation; computational complexity; difference images; filter banks; input process auto-correlation function; interframe coding; intraframe coding; motion-compensated image sequence coders; performance; pyramid decomposition; separable input process spectrum; signal domain; subband coders; transform coders; uniform subband; Autocorrelation; Bit rate; Computational complexity; Filter bank; Image coding; Image sequences; Performance gain; Signal processing; Statistics; Transform coding;
Journal_Title :
Communications, IEEE Transactions on
