A Fast Data Driven Shrinkage of Singular Values for Arbitrary Rank Signal Matrix Denoising

Recovering a low-rank signal matrix from its noisy observation, commonly known as matrix denoising, is a fundamental inverse problem in statistical signal processing. Matrix denoising methods are generally based on shrinkage or thresholding of singular values with a predetermined shrinkage parameter...

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Veröffentlicht in:	arXiv.org 2017-01
Hauptverfasser:	Yadav, Santosh Kumar, Sinha, Rohit, Bora, Prabin Kumar
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Sprache:	eng
Schlagworte:	Imagery Inverse problems Iterative methods Matrix theory Noise reduction Parameter estimation Shrinkage Signal processing
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description	Recovering a low-rank signal matrix from its noisy observation, commonly known as matrix denoising, is a fundamental inverse problem in statistical signal processing. Matrix denoising methods are generally based on shrinkage or thresholding of singular values with a predetermined shrinkage parameter or threshold. However, most of the existing adaptive shrinkage methods use multiple parameters to obtain a better flexibility in shrinkage. The optimal value of these parameters using either cross-validation or Stein's principle. In both the cases, the iterative estimation of various parameters render the existing shrinkage methods computationally latent for most of the real-time applications. This paper presents an efficient data dependent shrinkage function whose parameters are estimated using Stein's principle but in a non-iterative manner, thereby providing a comparatively faster shrinkage method. In addition, the proposed estimator is found to be consistent with the recently proposed asymptotically optimal estimators using the results from random matrix theory. The experimental studies on artificially generated low-rank matrices and on the magnetic resonant imagery data, show the efficacy of the proposed denoising method.
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subjects	Imagery Inverse problems Iterative methods Matrix theory Noise reduction Parameter estimation Shrinkage Signal processing
title	A Fast Data Driven Shrinkage of Singular Values for Arbitrary Rank Signal Matrix Denoising
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