A watermarking-based method for informed source separation of audio signals with a single sensor

IEEE Transactions on Audio, Speech and Language Processing

Volumn 18, Issue 6, 2010, Pages 1464-1475

  Parvaix, Mathieu ^a   Girin, Laurent ^a   Brossier, Jean Marc ^a  

^a GIPSA LAB   (France)

Author keywords

Audio processing; Speech processing; Under determined source separation; Watermarking

Indexed keywords

AUDIO PROCESSING; AUDIO SIGNAL; AUDIO SOURCE SEPARATION; AUDIO WATERMARKING; END USERS; MUSIC SIGNALS; SEPARATION PROCESS; SINGLE CHANNELS; SINGLE SENSOR; SOURCE SEPARATION; SOURCE SIGNALS; SPATIALIZATION; UNDER-DETERMINED; VOICE SIGNALS; VOLUME CONTROLS; WATERMARKING TECHNIQUES;

BLIND SOURCE SEPARATION; MIXTURES; SPEECH PROCESSING; WATERMARKING;

SIGNAL ANALYSIS;

EID: 77955732560     PISSN: 15587916     EISSN: None     Source Type: Journal    
DOI: 10.1109/TASL.2009.2035216     Document Type: Article

References (37)

1. J. Cardoso, "Blind signal separation: Statistical principles," Proc. IEEE, vol.9, no.10, pp. 2009-2025, Oct. 1998.
2. C. Jutten and J. Herault, "Blind separation of sources, part 1: An adaptative algorithm based on neuromimetic architecture," Signal Process., vol.24, no.1, pp. 1-10, 1991.
3. L. D. Lathauwer, D. Callaerts, B. D. Moor, and J. Vandewalle, "Fetal electrocardiogram extraction by source subspace separation," in IEEE Workshop High Order Statist., 1995, pp. 134-138.
4. V. Zarzoso and A. K. Nandi, "Noninvasive fetal electrocardiogram extraction: Blind source separation versus adaptative noise cancellation," IEEE Trans. Biomed. Eng., vol.48, no.1, pp. 12-18, Jan. 2001.
5. K. Abed-Meraim, S. Attallah, T. J. Lim, and M. Damen, "A blind interference canceller in DS-CDMA," in Proc. IEEE Int. Symp. Spread Spectrum Tech. Applicat., 2000, vol.2, pp. 358-362.
6. S. Shamsunder and G. Giannakis, "Modeling of non-Gaussian array data using cumulants: DOA estimation of more sources with less sensors," Signal Process., vol.30, no.3, pp. 279-297, 1993.
7. O. Yilmaz and S. Rickard, "Blind separation of speech mixtures via time-frequency masking," IEEE Trans. Signal Process., vol.52, no.7, pp. 1830-1847, 2004.
8. S. Winter, W. Kellermann, H. Sawada, and S. Makino, Underdetermined Blind Source Separation of Convolutive Mixtures by Hierarchical Clustering and L1-Norm Minimization, S. Makino, Ed. et al. New York: Springer, 2007, pp. 271-304, Blind Source Separation.
9. C. Fevotte, Bayesian Audio Source Separation, S.Makino, Ed. et al. New York: Springer, 2007, pp. 305-335, Blind Source Separation.
10. M. Zibulevski and B. Pearlmutter, "Blind source separation by sparse decomposition in a signal dictionary," Neural Comput., vol.13, no.4, pp. 863-882, 2001.
11. P. Bofill and M. Zibulevski, "Underdetermined blind source separation using sparse representations," Signal Process., vol.81, no.11, pp. 2353-2362, 2001.
12. N. Linh-Trung, A. Belouchrani, K. Abed-Meraim, and B. Boashash, "Separating more sources than sensors using time-frequency distributions," J. Appl. Signal Process., vol.2005, no.17, pp. 2828-2847, 2005.
13. D. Rosenthal and H. Okuno, Eds., Computational Auditory Scene Analysis. Mahwah, NJ: Lawrence Erlbaum Associates, 1998.
14. D. Kirovski and H. Malvar, "Spread-spectrum audio watermarking: Requirements, applications, limitations," in Proc. IEEE Int. Workshop Multimedia Signal Process., 2001, vol. 51, no. 4, pp. 219-224.
15. R. Garcia, "Digital watermarking of audio signals using psychoacoustic auditory model and spread spectrum theory," in Proc. 107th Conv. Audio Eng. Soc. (AES), 1999.
16. I. Cox, F. Leighton, and T. Shamoon, "Secure spread spectrum watermarking for multimedia," IEEE Trans. Image Process., vol.6, no.12, pp. 1673-1687, Dec. 1997.
17. I. J. Cox, M. L. Miller, and A. L. McKellips, "Watermarking as communications with side information," Proc. IEEE, vol.87, no.7, pp. 1127-1141, Jul. 1999.
18. R. Tachibana, "Audio watermarking for live performance," SPIE Electron. Imaging: Security and Watermarking of Multimedia Content V, vol.5020, pp. 32-43, 2003.
19. B. Chen and C.-E. Sundberg, "Digital audio broadcasting in the FM band by means of contiguous band insertion and precanceling techniques," IEEE Trans. Commun., vol.48, no.10, pp. 1634-1637, Oct. 2000.
20. T. Nakamura, R. Tachibana, and S. Kobayashi, "Automatic music monitoring and boundary detection for broadcast using audio watermarking," SPIE Electron. Imaging: Security and Watermarking of Multimedia Content IV, 2002.
21. J. Princen and A. Bradley, "Analysis/synthesis filter bank design based on time domain aliasing cancellation," IEEE Trans. Acoust., Speech, Signal Process., vol.ASSP-64, no.5, pp. 1153-1161, Oct. 1986.
22. A. Aïssa-El-Bey, N. Linh-Trung, K. Abed-Meraim, A. Belouchrani, and Y. Grenier, "Underdetermined blind separation of nondisjoint sources in the time-frequency domain," IEEE Trans. Signal Process., vol.55, no.3, pp. 897-907, Mar. 2007.
23. J. Woodruff and B. Pardo, "Using pitch, amplitude modulation, and spatial cues for separation of harmonic instruments from stereo music recordings," EURASIP J. Adv. Signal Process., vol.2007, 2007, article ID 86369.
24. C. Févotte and J.-F. Cardoso, "Maximum likelihood approach for blind audio source separation using time-frequency gaussian source models," in Proc. IEEEWorkshop Applicat. Signal Process. Audio Acoust., 2005, pp. 78-81.
25. H. Viste and G. Evangelista, "A method for separation of overlapping partials based on similarity of temporal envelopes in multichannel mixtures," IEEE Trans. Audio, Speech, Lang. Process., vol.14, no.3, pp. 1051-1061, May 2006.
26. R. Gribonval and E. Bacry, "Harmonic decomposition of audio signals with matching pursuit," IEEE Trans. Signal Process., vol.51, no.1, pp. 101-112, Jan. 2003.
27. L. Daudet, "Sparse and structured decompositions of signals with the molecular matching pursuit," IEEE Trans. Audio, Speech, Lang. Process., vol.14, no.5, pp. 1808-1816, Oct. 2006.
28. M. Parvaix, S. Krishnan, and C. Ioana, "An audio watermarking method based on molecular matching pursuit," in Proc. IEEE Int. Conf. Acoust., Speech, Signal Process. (ICASSP), 2008, pp. 1721-1724.
29. B. Chen and G. Wornell, "Quantization index modulation: A class of provably good methods for digital watermarking and information embedding," IEEE Trans. Inf. Theory, vol.47, no.4, pp. 1423-1443, May 2001. (Pubitemid 32508483)
30. M. Costa, "Writing on dirty paper," IEEE Trans. Inf. Theory, vol.IT-29, no.3, pp. 439-441, 1983.
31. K. Brandenburg and M. Bosi, "Overview ofMPEG audio: Current and future standards for low bit-rate audio coding," J. Audio Eng. Soc., vol.45, no.1, pp. 4-21, 1997.
32. J. S. Garofolo, L. Lamel, W. M. Fisher, J. G. Fiscus, D. S. Pallett, N. L. Dahlgren, and V. Zue, Timit Acoustic-Phonetic Continuous Speech Corpus. Philadelphia, PA: Linguistic Data Consortium, 1993.
33. A. Gersho and R. M. Gray, Vector Quantization and Signal Compression. Norwell, MA: Kluwer, 1992.
34. Y. Linde, A. Buzo, and R. M. Gray, "Algorithm for vector quantizer design," IEEE Trans. Commun., vol.COM-28, no.1, pp. 84-95, Jan. 1980.
35. N. Cho, Y. Shiu, and C.-C. J. Kuo, "Audio source separation with matching pursuit and content-adaptive dictionaries," in Proc. IEEE Workshop Applicat. Signal Process. Audio Acoust., 2007, pp. 287-290.
36. K. L. Oehler and R. M. Gray, "Mean-gain-shape vector quantization," in Proc. IEEE Int. Conf. Acoust., Speech, Signal Process. (ICASSP), 1993.
37. E. Vincent, R. Gribonval, and C. Fevotte, "Performance measurement in blind audio source separation," IEEE Trans. Speech Audio Process., vol.14, no.4, pp. 1462-1469, Jul. 2005.