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References
O. Agazzi, D. G. Messerschmitt, D. A. Hodges: Nonlinear echo cancellation of data signals, IEEE Trans. on Communications, 30(11), 2421-2433, Nov. 1982.
J. Benesty, D. R. Morgan, J. H. Cho: A new class of doubletalk detectors based on cross-correlation, IEEE Trans. on Acoustics, Speech, and Signal Processing, 8(2), 168-172, March 2000.
A. N. Birkett, R. A. Goubran: Limitations of handsfree acoustic echo cancellers due to nonlinear loudspeaker distortion and enclosure vibration effects, Proc. WASPAA ’95, 13-16, New Paltz, NY, USA, Oct. 1995.
H. Brehm, W. Stammler: Description and generation of spherically invariant speech-model signals, Signal Processing, 12(2), 119-141, March 1987.
C. Breining, P. Dreiseitel, E. Hänsler, A. Mader, B. Nitsch, H. Puder, T. Schertler, G. Schmidt, J. Tilp: Acoustic echo control, IEEE Signal Processing Magazine, 16(4), 42-69, July 1999.
J. Chen, J. Vandevalle: Study of adaptive nonlinear echo canceller with Volterra expansion, Proc. Processing ICASSP ’89, 1376-1379, Glasgow, UK, May 1989.
A. Fermo, A. Carini, G. L. Sicuranza: Simplified Volterra filters for acoustic echo cancellation in GSM receivers, Proc. EUSIPCO ’00, 2413- 2416, Tampere, Finland, Sept. 2000.
W. A. Frank: An efficient approximation to the quadratic Volterra filter and its application in realtime loudspeaker linearization, Signal Processing, 45(1), 97-113, July 1995.
G. O. Glentis, K. Berberidis, S. Theodoridis: Efficient least squares adaptive algorithms for FIR transversal filtering: a unified view, IEEE Signal Processing Magazine, 16(4), 13-41, July 1999.
R. M. Gray: On the asymptotic eigenvalue distribution of Toeplitz ma- trices, IEEE Trans. on Information Theory, 18(6), 725-730, Nov. 1972.
A. Guérin, G. Faucon, R. Le Bouquin-Jeannès: Nonlinear acoustic echo cancellation based on Volterra filters, IEEE Trans. on Acoustics, Speech, and Signal Processing, 11(6), 672-683, Nov. 2003.
S. Gustafsson, R. Martin, P. Vary: Combined acoustic echo control and noise reduction for hands-free telephony, Signal Processing, 64(1), 21-32, 1998.
E. Hänsler, G. Schmidt: Acoustic Echo and Noise Control: A Practical Approach, Hoboken, NJ, USA: Wiley, 2004.
S. Haykin: Adaptive Filter Theory, Englewood Cliffs, NJ, USA: Prentice Hall, 1996.
S. Im, E. J. Powers: A fast method of discrete third-order Volterra filter- ing, IEEE Trans. on Signal Processing, 44(9), 2195-2208, Sept. 1996.
W. Klippel: Dynamic measurement and interpretation of the nonlinear parameters of electrodynamic loudspeakers, J. Audio Eng. Soc., 38(12), 944-955, Dec. 1990.
W. Klippel: Filter structures to compensate for nonlinear distortion of horn loudspeakers, J. Audio Eng. Soc., Preprint 4102, 1995.
F. Kuech, W. Kellermann: Proportionate NLMS algorithm for second- order Volterra filters and its application to nonlinear echo cancellation, Proc. IWAENC ’03, 75-78, Kyoto, Japan, Sept. 2003.
F. Kuech, W. Kellermann: A novel multidelay adaptive algorithm for Volterra filters in diagonal coordinate representation, Proc. ICASSP ’04, 2,869-872, Montreal, Canada, May 2004.
F. Kuech, W. Kellermann: Coefficient-dependent step-size for adaptive second-order Volterra filters, Proc. EUSIPCO ’04, 1805-1808, Vienna, Austria, Sept. 2004.
F. Kuech, W. Kellermann: Orthogonalized power filters for nonlinear acoustic echo cancellation, Signal Processing, submitted Jan. 2005.
F. Kuech, W. Kellermann: Partitioned block frequency-domain adaptive second-order Volterra filter, IEEE Trans. on Signal Processing, 53(2), 564-575, Feb. 2005.
F. Kuech, A. Mitnacht, W. Kellermann: Nonlinear acoustic echo cancel- lation using adaptive orthogonalized power filters, Proc. ICASSP ’05, 3, 105-108, Philadelphia, PA, USA, March 2005.
G. Lazzarin, S. Pupolin, A. Sarti: Nonlinearity compensation in digital radio systems, IEEE Trans. on Communications, 42(2), 988-999, Feb. 1994.
J. Lee, V. J. Mathews: A fast recursive least squares adaptive second order Volterra filter and its performance analysis, IEEE Trans. on Signal Processing, 41(3), 1087-1102, March 1993.
A. Mader, H. Puder, G. U. Schmidt: Step-size control for acoustic echo cancellation filters - an overview, Signal Processing, 80(9), 1697-1719, Sept. 2000.
V. J. Mathews: Adaptive polynomial filters, IEEE Signal Processing Mag- azine, 8(3), 10-26, July 1991.
V. J. Mathews, G. L. Sicuranza: Polynomial Signal Processing, New York, USA: John Wiley and Sons, 2000.
M. Morháč: A fast algorithm of nonlinear Volterra filtering, IEEE Trans. on Signal Processing, 39(10), 2353-2356, Oct. 1991.
E. Moulines, O. A. Amrane, Y. Grenier: The generalized multidelay adap- tive filter: Structure and convergence analysis,IEEE Trans. on Signal Processing, 43(1), 14-28, Jan. 1995.
B. H. Nitsch: A frequency-selective stepfactor control for an adaptive fil- ter algorithm working in the frequency domain, Signal Processing, 80(9), 1733-1745, Sept. 2000.
B. S. Nollett, D. L. Jones: Nonlinear echo cancellation for hands-free speakerphones, Proc. NSIP ’97, Mackinac Island, MI, USA, Sept. 1997.
A. Papoulis, S.U. Pillai: Probability, Random Variables and Stochastic Processes, New York, USA: McGraw-Hill, 2002.
J. G. Proakis, D. G. Manolakis: Digital Signal Processing: Principles, Algorithms and Applications, Englewood Cliffs, NJ, USA: Prentice Hall, 1996.
G. M. Raz, B. D. Van Veen: Baseband Volterra filters for implementing carrier based nonlinearities, IEEE Trans. on Signal Processing, 46(1), 103-114, Jan. 1998.
M. Rupp, J. Cezanne: Robustness conditions of the LMS algorithm with time-variant matrix step-size, Signal Processing, 80(9), 1787-1794, Sept. 2000.
H. Schurer: Linearization of Electroacoustic Transducers, Enschede, Netherlands: Print Partners Ipskamp, 1997.
J. J. Shynk: Frequency domain and multirate adaptive filtering, IEEE Signal Processing Magazine, 9(1), 14-37, Jan. 1992.
J.-S. Soo, K. K. Pang: Multidelay block frequency domain adaptive filter, IEEE Trans. on Acoustics, Speech, and Signal Processing, 38(2), 373-376, Feb. 1990.
M. Soria-Rodriguez, M. Gabbouj, N. Zacharov, M. S. Hämäläinen, K. Koivuniemi: Modeling and real-time auralization of electrodynamic loudspeaker non-linearities, Proc. ICASSP ’04, 4, 17-21, Montreal, Canada, May 2004.
A. Stenger:Kompensation akustischer Echos unter Einfluss von nichtlin- earen Audiokomponenten, Aachen, Germany: Shaker, 2001 (in German).
A. Stenger, W. Kellermann: Adaptation of a memoryless preprocessor for nonlinear acoustic echo cancelling, Signal Processing, 80(9), 1741-1760, Sept. 2000.
A. Stenger, R. Rabenstein: Adaptive Volterra filters for acoustic echo cancellation, Proc. NSIP ’99, 2, 679-683, Antalya, Turkey, June 1999.
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(2006). Nonlinear Acoustic Echo Cancellation. In: Hänsler, E., Schmidt, G. (eds) Topics in Acoustic Echo and Noise Control. Signals and Communication Technology. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-33213-8_7
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