Title :
Maximizing the Signal-to-Alias Ratio in Non-Uniform Filter Banks for Acoustic Echo Cancellation
Author :
Nongpiur, Rajeev C. ; Shpak, Dale J.
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Victoria, Victoria, BC, Canada
Abstract :
A new method for designing non-uniform filter-banks for acoustic echo cancellation is proposed. In the method, the analysis prototype filter design is framed as a convex optimization problem that maximizes the signal-to-alias ratio (SAR) in the analysis banks. Since each sub-band has a different bandwidth, the contribution to the overall SAR from each analysis bank is taken into account during optimization. To increase the degrees of freedom during optimization, no constraints are imposed on the phase or group delay of the filters; at the same time, low delay is achieved by ensuring that the resulting filters are minimum phase. Experimental results show that the filter bank designed using the proposed method results in a sub-band adaptive filter with a much better echo return loss enhancement (ERLE) when compared with existing design methods.
Keywords :
acoustic signal processing; adaptive filters; channel bank filters; convex programming; echo; echo suppression; ERLE; acoustic echo cancellation; convex optimization problem; delay; echo return loss enhancement; nonuniform filter banks; signal-to-alias ratio; subband adaptive filter; Adaptive systems; Cost function; Delay; Echo cancellers; Prototypes; Signal to noise ratio; Acoustic echo cancellation; non-uniform filter- banks; sub-band adaptive filter;
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2012.2185333
