Authors: Pogula Rakesh, T. Kishore Kumar

Abstract:

Speech enhancement is a long standing problem with numerous applications like teleconferencing, VoIP, hearing aids and speech recognition. The motivation behind this research work is to obtain a clean speech signal of higher quality by applying the optimal noise cancellation technique. Real-time adaptive filtering algorithms seem to be the best candidate among all categories of the speech enhancement methods. In this paper, we propose a speech enhancement method based on Recursive Least Squares (RLS) adaptive filter of speech signals. Experiments were performed on noisy data which was prepared by adding AWGN, Babble and Pink noise to clean speech samples at -5dB, 0dB, 5dB and 10dB SNR levels. We then compare the noise cancellation performance of proposed RLS algorithm with existing NLMS algorithm in terms of Mean Squared Error (MSE), Signal to Noise ratio (SNR) and SNR Loss. Based on the performance evaluation, the proposed RLS algorithm was found to be a better optimal noise cancellation technique for speech signals.

Keywords: Adaptive filter, Adaptive Noise Canceller, Mean Squared Error, Noise reduction, NLMS, RLS, SNR, SNR Loss.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1099384

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 3129

References:

[1] P. Krishnamoorthy and S.R. Mahadeva Prasanna, “Temporal and Spectral Processing Methods for Processing of Degraded Speech: A Review,” IETE Technical Review, Vol. 26, No. 2, March 2009.
[2] Jingdong C., Jacob B. and Arden Huang., “On the optimal linear filtering techniques for noise reduction,” Speech Communications, Vol. 49, No. 4, April 2007, pp. 305-316.
[3] Jan Vanus and Vitezslav Styskala, “Application of optimal settings of the LMS adaptive filter for speech signal processing,” Proceedings of the 2010 International multiconference on Computer Science and Information Technology, October 2010, pp.767-774.
[4] Paulo S.R. Diniz, Adaptive Filtering: Algorithms and Practical Implementation, Springer, 2013.
[5] Raj Kumar Thenua and S.K. Agarwal, “Simulation and performance analysis of adaptive filter in noise cancellation,” International Journal of Engineering Science and Technology, Vol. 2, No. 9, 2010, pp. 4373- 4378.
[6] Simon Haykin, Adaptive Filter Theory, Prentice- Hall, 2002.
[7] Emmanuel Ifeachor C., Jervis Barrie W., Digital Signal Processing – A practical approach, Pearson Education, 2004.
[8] M. Turki-Hadj Alouane and M. Jaídane-Saídane, “A new nonstationary LMS algorithm for tracking Markovian time varying systems,” Signal Processing, Volume 86, No. 1, January 2006 pp. 50-70.
[9] A.H. Sayed, Fundamentals of Adaptive Filtering, Wiley, 2003.
[10] J. H. Husoy and M. S. E. Abadi, “A comparative study of some simplified RLS type algorithm,” Proceedings of International Symposium on control, Communications and Signal Processing, March 2004, pp.705-708.
[11] Komal R. Borisagar and Dr. G.R.Kulkarni, “Simulation and Comparative Analysis of LMS and RLS Algorithms Using Real Time Speech Input Signal,” Global Journal of Researches in Engineering, Vol. 10, No. 5, October 2010, pp. 44-47.
[12] Jianfen Maa and Philipos C. Loizou, “SNR loss: A new objective measure for predicting the intelligibility of noise-suppressed speech,” Speech Communication, Vol. 53, No. 3, March 2011, pp. 340–354.