Title :
Nonlinear Acoustic Echo Cancellation Using a Nonlinear Postprocessor With a Linearly Constrained Affine Projection Algorithm
Author :
Keunsang Lee ; Yonghyun Baek ; Youngcheol Park
Author_Institution :
Div. of Comput. & Telecommun. Eng., Yonsei Univ., Wonju, South Korea
Abstract :
This brief presents a nonlinear acoustic echo cancellation algorithm comprising a postprocessor that can model the saturation-type nonlinear distortion of a microphone circuit. To support fast adaptation to the acoustic echo environment, the linear filter is adapted using an affine projection algorithm where the reference input vectors subject to linear operation are dynamically selected to update the coefficient vector. We consider the hard-clipper and sigmoid functions for the postprocessor, and their parameters are adaptively updated using the least-mean-square algorithm. The simulation results confirm that the proposed algorithm achieves fast and stable convergence under saturation-type microphone distortion, and it can have better performance than conventional algorithms.
Keywords :
echo suppression; filtering theory; microphones; acoustic echo environment; coefficient vector; linear filter; linear operation; linearly constrained affine projection algorithm; microphone circuit; nonlinear acoustic echo cancellation algorithm; nonlinear postprocessor; reference input vectors; saturation type nonlinear distortion; sigmoid functions; Acoustic distortion; Convergence; Echo cancellers; Microphones; Nonlinear distortion; Signal processing algorithms; Hard-clipper function; Nonlinear acoustic echo cancellation; hard-clipper function; linear constraint affine projection; linear constraint affine projection (AP); nonlinear acoustic echo cancellation (NAEC); nonlinear postprocessor; sigmoid function;
Journal_Title :
Circuits and Systems II: Express Briefs, IEEE Transactions on
DOI :
10.1109/TCSII.2015.2435711
