| 1 |
Microchip, Acoustic Echo Cancellation Library, (DS7013A.)/
|
|
| 2 |
X.Y.Gao and W.M.Snelgrove, "Adaptive Linearization of a Loudspeaker," Proc. International Conference Acoustic, Speech Siganl Processing, Toronto, pp.3589-3592, May 1991/
|
|
| 3 |
M. Tummtran, "Iterative Algorithm for Identification of Third -Order Volterra Systems," Proc. International Conference Acoustic, Speech, Signal Processing, pp.3489-3492, 1991/
|
|
| 4 |
S.W. Nam, S.B.Kim and E.J.Powers, "On the Identification of a Third Order Volterra Nonlinear System Using a Frequency-Domain Block RLS Adaptive Algorithm," Proc. International Conference, Speech, Signal Processing, pp.2407-2409, 1990/
|
|
| 5 |
S. Theodoridis. and K. Koutroumbas, Pattern recognition, (Qinghua University. 2009), pp.524-528/
|
|
| 6 |
G. Zhou and T. B. Shim. "Simulation Analysis of High Speed Underwater Acoustic Communication Based on a Statistical Channel Model". IEEE CISP 2008, 2008/
|
|
| 7 |
J. S. Zhang. Sound speed in bubble film of ship wakes (Science in China Series G : Physics, Mechanics & Astronomy 2008), pp. 64-71/
|
|
| 8 |
T. Kim, H. T. Attias, S.-Y. Lee, and T.-W. Lee, "Blind source separation exploiting higher-order frequency dependencies," IEEE Trans. Audio, Speech, and Language Processing, 15(1):70-79, 2007/
|
|
| 9 |
D.Q.K. Ngoc, C. Park, and S.H Nam, An acoustic echo canceller combined with blind source separation. Proc. of the Acoustic Society of Korea conf., 24(1), Aug., 2007/
|
|
| 10 |
C. L. Philipos, "Speech Enhancement (Theory and Practice", 1st edition. CRC Press, Boca Raton, FL, 2007/
|
|