A design procedure for optimal energy compaction IIR filters

In this brief we consider the energy compaction problem for filters belonging to a restricted class of infinite-impulse response (IIR) filters, having the transfer function h(z)=(H/sub 0/(z/sup 2/)+z/sup -1/ H/sub 1/(z/sup 2/))//spl radic/2, where both polyphase components H/sub 0/(z) and H/sub 1/(z) are stable all pass filters. Assuming rational input spectra, we reduce the infinite series expansion of the compaction gain criterion to a finite sum with terms depending on the parameters of the filter H(z). Simple expressions for computing the gradient of the criterion are derived, and finally a gradient ascent maximization routine is proposed, which provides the IIR filter with optimum parameters. Simulation results illustrate the good compaction gain of the optimal IIR filters, which despite their constrained nature (allpass polyphase components), may well outperform finite-impulse response (FIR) filters with much more parameters. The main envisaged application of our work is building QMF perfect reconstruction filterbanks with maximum coding gain, but the above optimization problem and simple extensions of it can be solved in the same manner and also be used in other filter design applications.

[1]  Bogdan Dumitrescu,et al.  A low complexity SDP method for designing optimum compaction filters , 2000, 2000 IEEE International Conference on Acoustics, Speech, and Signal Processing. Proceedings (Cat. No.00CH37100).

[2]  P. P. Vaidyanathan,et al.  Theory of optimal orthonormal subband coders , 1998, IEEE Trans. Signal Process..

[3]  P. P. Vaidyanathan,et al.  Optimum low cost two channel IIR orthonormal filter bank , 1997, 1997 IEEE International Conference on Acoustics, Speech, and Signal Processing.

[4]  Torsten Söderström,et al.  An efficient and versatile algorithm for computing the covariance function of an ARMA process , 1998, IEEE Trans. Signal Process..

[5]  Sanjit K. Mitra,et al.  Tree-structured complementary filter banks using all-pass sections , 1987 .

[6]  P. Vaidyanathan,et al.  The digital all-pass filter: a versatile signal processing building block , 1988, Proc. IEEE.

[7]  P. P. Vaidyanathan,et al.  Theory and design of optimum FIR compaction filters , 1998, IEEE Trans. Signal Process..

[8]  Pierre Moulin,et al.  Theory and design of signal-adapted FIR paraunitary filter banks , 1998, IEEE Trans. Signal Process..

[9]  Jaakko Astola,et al.  Optimizing the compaction gain in a class of IIR filters , 1999, ISCAS'99. Proceedings of the 1999 IEEE International Symposium on Circuits and Systems VLSI (Cat. No.99CH36349).

[10]  T. Ramstad IIR filterbank for subband coding of images , 1988, 1988., IEEE International Symposium on Circuits and Systems.

[11]  K. Premaratne,et al.  Two-channel IIR QMF banks with approximately linear-phase analysis and synthesis filters , 1995, IEEE Trans. Signal Process..