Title :
Audio Denoising by Time-Frequency Block Thresholding
Author :
Yu, Guoshen ; Mallat, Stéphane ; Bacry, Emmanuel
Author_Institution :
Ecole Polytech., Palaiseau
fDate :
5/1/2008 12:00:00 AM
Abstract :
Removing noise from audio signals requires a nondiagonal processing of time-frequency coefficients to avoid producing ldquomusical noise.rdquo State of the art algorithms perform a parameterized filtering of spectrogram coefficients with empirically fixed parameters. A block thresholding estimation procedure is introduced, which adjusts all parameters adaptively to signal property by minimizing a Stein estimation of the risk. Numerical experiments demonstrate the performance and robustness of this procedure through objective and subjective evaluations.
Keywords :
audio signal processing; numerical analysis; signal denoising; time-frequency analysis; Stein estimation; audio denoising; audio signals; block thresholding estimation; musical noise; nondiagonal processing; spectrogram coefficient parameterized filtering; time-frequency block thresholding; time-frequency coefficients; Background noise; Filtering algorithms; Fourier transforms; Noise reduction; Recursive estimation; Signal processing; Spectrogram; Time frequency analysis; Wavelet packets; Wavelet transforms; Audio denoising; Ephraim and Malah; block thresholding; power spectrum; power subtraction; thresholding;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2007.912893
