An Improved Proportionate Delayless Multiband-Structured Subband Adaptive Feedback Canceller for Digital Hearing Aids

Acoustic feedback cancellation is one of the challenging tasks in the design of a behind the ear digital hearing aid. This feedback cancellation is usually achieved by using an adaptive filter. The finite correlation between the desired microphone input signal and the input signal to the loudspeaker results in a biased estimation of the adaptive filter, which may produce disturbances in the hearing aid. Prediction error method (PEM) has been used in literature to reduce the bias effects. The convergence of a PEM-based feedback canceller can be improved by implementing the adaptive filter in the subband domain. However, a direct subband implementation results in aliasing issues, band-edge problems, and introduces a delay due to analysis and synthesis filters. In order to reduce the aliasing and delay issues, a delayless subband implementation of a PEM-based feedback canceller is designed in this paper. A delayless multiband-structured subband implementation of the feedback canceller is also attempted to further reduce the aliasing and band-edge effects. This implementation aims at having all the subbands collectively updating the fullband adaptive filter, without the need for a subband to fullband weight conversion and offers improved feedback cancellation at reduced computational load in comparison with a delayless subband implementation of a PEM-based feedback canceller. In addition, an attempt has been made to further improve the convergence behavior by using an improved proportionate learning scheme. The improved convergence offered by the proposed scheme is evident from the simulation study. The improvement has been further quantified using a perceptual evaluation of speech quality and the proposed approach has been shown to provide enhanced speech quality.

[1]  Jacob Benesty,et al.  Sparse Adaptive Filters for Echo Cancellation , 2010, Synthesis Lectures on Speech and Audio Processing.

[2]  Issa M. S. Panahi,et al.  An Efficient Delayless Sub-band Filtering for Adaptive Feedback Compensation in Hearing Aid , 2016, J. Signal Process. Syst..

[3]  Woon-Seng Gan,et al.  On Delayless Architecture for the Normalized Subband Adaptive Filter , 2007, 2007 IEEE International Conference on Multimedia and Expo.

[4]  B Rafaely,et al.  Feedback path variability modeling for robust hearing aids. , 2000, The Journal of the Acoustical Society of America.

[5]  Dennis R. Morgan,et al.  A delayless subband adaptive filter architecture , 1995, IEEE Trans. Signal Process..

[6]  Feng Li,et al.  A Variable Regularization Matrix Normalized Subband Adaptive Filter , 2009, IEEE Signal Processing Letters.

[7]  King Chung,et al.  Challenges and Recent Developments in Hearing Aids: Part I. Speech Understanding in Noise, Microphone Technologies and Noise Reduction Algorithms , 2004, Trends in amplification.

[8]  Kong-Aik Lee,et al.  On the Subband Orthogonality of Cosine-Modulated Filter Banks , 2006, IEEE Transactions on Circuits and Systems II: Express Briefs.

[9]  James M. Kates,et al.  Adaptive Feedback Cancellation in Hearing Aids , 2003 .

[10]  Wutao Yin,et al.  Stochastic Analysis of the Normalized Subband Adaptive Filter Algorithm , 2011, IEEE Transactions on Circuits and Systems I: Regular Papers.

[11]  M. Moonen,et al.  Adaptive feedback cancellation in hearing aids with linear prediction of the desired signal , 2005, IEEE Transactions on Signal Processing.

[12]  Andries P. Hekstra,et al.  Perceptual evaluation of speech quality (PESQ)-a new method for speech quality assessment of telephone networks and codecs , 2001, 2001 IEEE International Conference on Acoustics, Speech, and Signal Processing. Proceedings (Cat. No.01CH37221).

[13]  Marc Moonen,et al.  Fifty Years of Acoustic Feedback Control: State of the Art and Future Challenges , 2011, Proceedings of the IEEE.

[14]  Daniel J. Freed,et al.  Adaptive feedback cancellation in hearing aids with clipping in the feedback path. , 2008, The Journal of the Acoustical Society of America.

[15]  Simon Doclo,et al.  Feedback Control in Hearing Aids , 2008 .

[16]  Akinori Nishihara,et al.  Automatic tuning of probe noise for continuous acoustic feedback cancelation in hearing aids , 2016, 2016 24th European Signal Processing Conference (EUSIPCO).

[17]  Chih-Wei Liu,et al.  10-ms 18-Band Quasi-ANSI S1.11 1/3-Octave Filter Bank for Digital Hearing Aids , 2013, IEEE Transactions on Circuits and Systems I: Regular Papers.

[18]  W.S. Gan,et al.  Inherent Decorrelating and Least Perturbation Properties of the Normalized Subband Adaptive Filter , 2006, IEEE Transactions on Signal Processing.

[19]  Kong-Aik Lee,et al.  Mean-Square Performance Analysis of the Normalized Subband Adaptive Filter , 2006, 2006 Fortieth Asilomar Conference on Signals, Systems and Computers.

[20]  Yi Hu,et al.  Subjective comparison and evaluation of speech enhancement algorithms , 2007, Speech Commun..

[21]  D. M. Etter,et al.  ACOUSTIC ECHO CANCELLATION USING SUBBAND ADAPTIVE FILTERING , 1996 .

[22]  Kong-Aik Lee,et al.  Improving convergence of the NLMS algorithm using constrained subband updates , 2004, IEEE Signal Processing Letters.

[23]  Johan Hellgren,et al.  Analysis of feedback cancellation in hearing aids with Filtered-x LMS and the direct method of closed loop identification , 2002, IEEE Trans. Speech Audio Process..

[24]  José Carlos M. Bermudez,et al.  Transient Mean-Square Analysis of Prediction Error Method-Based Adaptive Feedback Cancellation in Hearing Aids , 2012, IEEE Transactions on Audio, Speech, and Language Processing.

[25]  James M. Kates,et al.  Digital hearing aids. , 2008, Harvard health letter.

[26]  Mike Brookes,et al.  Adaptive algorithms for sparse echo cancellation , 2006, Signal Process..

[27]  Malcolm Slaney,et al.  Construction and evaluation of a robust multifeature speech/music discriminator , 1997, 1997 IEEE International Conference on Acoustics, Speech, and Signal Processing.

[28]  Wei-Yong Yan,et al.  Analysis of Two Microphone Method for Feedback Cancellation , 2015, IEEE Signal Processing Letters.

[29]  Woon-Seng Gan,et al.  Subband Adaptive Filtering: Theory and Implementation , 2009 .

[30]  Abeer Alwan,et al.  Steady-state analysis of continuous adaptation in acoustic feedback reduction systems for hearing-aids , 2000, IEEE Trans. Speech Audio Process..

[31]  Philipos C. Loizou,et al.  Speech Enhancement: Theory and Practice , 2007 .