Abstract:
This paper derives a theory for adaptive filters which operate on filter bank outputs, here called filter bank adaptive filters (FBAFs). It is shown how the FBAFs are a g...Show MoreMetadata
Abstract:
This paper derives a theory for adaptive filters which operate on filter bank outputs, here called filter bank adaptive filters (FBAFs). It is shown how the FBAFs are a generalization of transform domain adaptive filters and adaptive filters based on structural subband decompositions. The minimum mean-square error performance and convergence properties of FBAFs are determined as a function of filter bank used. A parametrization for a class of FIR perfect reconstruction filter banks is derived which is used to design FBAF's having optimal error performance given prior knowledge of the application. Simulations are performed to illustrate the derived theory and demonstrate the improved error performance of the FBAFs relative to the LMS algorithm, when prior knowledge is incorporated.
Published in: IEEE Transactions on Circuits and Systems II: Analog and Digital Signal Processing ( Volume: 43, Issue: 3, March 1996)
DOI: 10.1109/82.486471
References is not available for this document.
Select All
1.
B. Usevitch and M. Orchard, "Generalized transform domain adaptive filtering", Proc. 1992 Conf. Information Sciences Syst., pp. 784-789, 1992.
2.
S. S. Narayan, A. M. Peterson and M. J. Narasimha, "Transform domain LMS algorithm", IEEE Trans. Acoust. Speech Signal Process., vol. ASSP-31, pp. 609-615, June 1983.
3.
D. F. Marshall and W. K. Jenkins, "The use of orthogonal transforms for improving performance of adaptive filters", IEEE Trans. Circuits Syst., vol. 36, pp. 474-484, Apr. 1989.
4.
M. Dentino, J. McCool and B. Widrow, "Adaptive filtering in the frequency domain", Proc. IEEE, vol. 66, pp. 1658-1659, Dec. 1978.
5.
J. Shynk, "Frequency-domain and multirate adaptive filtering", IEEE Signal Process. Mag., vol. 9, pp. 14-37, Jan. 1992.
6.
E. Ferrara Jr., "Fast implementation of LMS adaptive filters", IEEE Trans. Acoust. Speech Signal Process., vol. 28, pp. 474-475, Aug. 1980.
7.
J. C. Lee and C. K. Un, "A reduced structure of the frequency domain block LMS adaptive digital filter", Proc. IEEE, vol. 72, pp. 1816-1818, Dec. 1984.
8.
A. Gilloire and M. Vetterli, "Adaptive filtering in sub-bands", Proc. IEEE ICASSP, pp. 1572-1575, 1988.
9.
A. Gilloire and M. Vetterli, "Adaptive filtering in sub-bands with critical sampling: Analysis experiments and application to acoustic echo cancellation", IEEE Trans. Signal Process., vol. 40, pp. 1862-1875, Aug. 1992.
10.
A. Gilloire, "Experiments with sub-band acoustic echo cancellers for teleconferencing", Proc. IEEE ICASSP, pp. 2141-2144, 1987.
11.
V. S. Somayazulu, S. K. Mitra and J. J. Shynk, "Adaptive line enhancement using multirate techniques", Proc. IEEE ICASSP, pp. 928-931, 1989.
12.
A. Mahalanobis, S. Song, M. Petraglia and S. Mitra, "General structural sub-band decomposition of adaptive filters for system identification problems", IEEE Trans. Circuits Syst..
13.
S. Mitra, M. Petraglia and A. Mahalanobis, "Structural subband implementation of adaptive filters", Proc. 24th Asil. Conf. Signals Syst. Comput., pp. 232-236, Nov. 1990.
14.
M. Petraglia and S. K. Mitra, "On the use of filter banks in adaptive filtering", Proc. 22nd Asilomar Conf. Signals Syst. Comput., pp. 30-34, 1988.
15.
M. Petraglia, Efficient adaptive filtering algorithms based on multirate techniques, 1991.
16.
P. P. Vaidyanathan, "Theory and design of M-channel maximally decimated quadrature mirror filters with arbitrary M having the perfect-reconstruction property", IEEE Trans. Acoust. Speech Signal Process., vol. ASSP-35, pp. 476-492, Apr. 1987.
17.
M. Vetterli and D. Le Gall, "Perfect reconstruction FIR filter banks: Some properties and factorizations", IEEE Trans. Acoust. Speech Signal Process., vol. 37, pp. 1057-1071, July 1989.
18.
M. Vetterli and C. Herley, "Wavelets and filter banks: Theory and design", IEEE Trans. Signal Process., vol. 40, pp. 2207-2231, Sept. 1992.
19.
Z. Doganata, P. Vaidyanathan and T. Nguyen, "General synthesis procedures for FIR lossless transfer matrices for perfect-reconstruction multirate filter bank applications", IEEE Trans. Acoust. Speech Signal Process., vol. 36, pp. 1561-1574, Oct. 1988.
20.
P. Vaidyanathan, T. Nguyen, Z. Doganata and T. Saramaki, "Improved technique for design of perfect reconstruction FIR QMF banks with lossless polyphase matrices", IEEE Trans. Acoust. Speech Signal Process., vol. 37, pp. 1042-1056, July 1989.
21.
R. Koilpillai and P. P. Vaidyanathan, "Cosine modulated FIR filter banks satisfying perfect reconstruction", IEEE Trans. Signal Process., vol. 40, pp. 770-783, Apr. 1992.
22.
R. E. Crochiere and L. R. Rabiner, Multirate Digital Signal Processing, 1983.
23.
S. Mitra and A. Mahalanobis, "Efficient FIR filter design and implementation using a structural subband decomposition", Proc. 1990 Bilkent Int. Conf. New Trends in Commun. Contr. Signal Process., pp. 1005-1022, July 1990.
24.
P. Vaidyanathan, "How to capture all FIR perfect reconstruction QMF banks with unimodular matrices?", ISCAS, pp. 2030-2033, 1990.
25.
M. Vetterli, "Filter banks allowing perfect reconstruction", Signal Processing, vol. 10, no. 3, pp. 219-244, Apr. 1986.
26.
D. Luenberger, Optimization by Vector Space Methods., 1969.
27.
G. Golub and C. Van Loan, Matrix Computations, 1990.
28.
K. Arun, Fundamentals of digital signal and spectral analysis, 1992.
29.
K. Pearson, "On lines and planes of closest fit to systems of points in space", Phil. Mag. 2 (Sixth Series), pp. 559-572, 1901.
30.
W. K. Jenkins, 1992.
