Title :
Spectral estimation from subbands
Author :
Rao, Sudhakar ; Pearlman, William A.
Author_Institution :
Dept. of Electr. Comput. & Syst. Eng., Rensselaer Polytech. Inst., Troy, NY, USA
Abstract :
The results of previous work by the authors (see Conf. on Inform. Sci. and Syst., 1992) are used to prove that subband differential pulse-code modulation (DPCM) provides a coding gain over full-band DPCM for finite orders of prediction. The equivalence of linear prediction and autoregressive (AR) modeling equations are used to estimate source spectra from subbands. Subband decomposition of a source results in a whitening of the composite subband spectrum. This implies that for any stationary source, a pth-order prediction error filter (PEF) can be found that is better than the pth PEF obtained by solving the Yule-Walker equations resulting from full-band data. The existence of such a superoptimal PEF is demonstrated, and a method to optimally allocate a prediction order pm to the mth subband such that the sum of the pm´s from m=1 to M equals p, where p is the full-band order of prediction and M is the number of subbands, is proposed
Keywords :
encoding; filtering and prediction theory; pulse-code modulation; spectral analysis; AR modeling; DPCM; autoregressive modelling; coding gain; composite subband spectrum; linear prediction; prediction error filter; prediction order; source spectra; spectral estimation; stationary source; subband coding; subband decomposition; subband differential pulse-code modulation; Band pass filters; Bandwidth; Covariance matrix; Entropy; Equations; Filtering; Frequency; Predictive models; Sampling methods; Systems engineering and theory;
Conference_Titel :
Time-Frequency and Time-Scale Analysis, 1992., Proceedings of the IEEE-SP International Symposium
Conference_Location :
Victoria, BC
Print_ISBN :
0-7803-0805-0
DOI :
10.1109/TFTSA.1992.274232
