Title :
Lossy synthesis of digital lattice filters
Author :
Sellami, Louiza ; Newcomb, Robert W.
Author_Institution :
Dept. of Electr. Eng., US Naval Acad., Annapolis, MD, USA
fDate :
4/1/1998 12:00:00 AM
Abstract :
A new method fur converting a lossless cascade lattice realization of a real, stable, single-input, single-output (ARMAn, n) filter, with a lossy constant terminating one-port section, to a lossy realization is proposed. The conversion process is carried out through the factorization of the transfer scattering matrix of a two-port equivalent of the terminating section and the distribution of the loss term, embedded in this matrix, among the lossless lattice sections according to some desirable pattern. The cascade is then made computable through the extraction of right-matched I-unitary normalization sections. The technique applies to both degree-one and degree-two lattice sections, and is rendered systematic owing to the particular lossless lattice structure used. The motivation for this work lies in the synthesis of a pipeline of digital cochlea lattices with loss suitable for hearing impairment diagnosis via Kemp echoes
Keywords :
S-matrix theory; digital filters; filtering theory; lattice filters; ARMA filters; Kemp echoes; conversion process; digital cochlea lattices; digital lattice filters; hearing impairment diagnosis; lossless cascade lattice realization; lossy constant terminating one-port section; lossy synthesis; pipeline synthesis; single-input single-output filter; transfer scattering matrix; two-port equivalent; CMOS process; CMOS technology; Circuits; Digital filters; Image coding; Lattices; Motion estimation; Passive filters; Very large scale integration; Video compression;
Journal_Title :
Circuits and Systems II: Analog and Digital Signal Processing, IEEE Transactions on
