Wavelet-Domain Medical Image Denoising Using Bivariate Laplacian Mixture Model

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Wavelet-Domain Medical Image Denoising Using Bivariate Laplacian Mixture Model Publisher Pubmed

Rabbani H¹ ; Nezafat R² ; Gazor S³

Show Affiliations

1. Department of Biomedical Engineering, Isfahan University of Medical Sciences, Isfahan, Iran
2. Department of Medicine, Harvard Medical School, Boston, MA 02115, United States
3. Department of Electrical and Computer Engineering, Queen's University, Kingston, ON K7L 3N6, Canada

Source: IEEE Transactions on Biomedical Engineering Published:2009

Abstract

In this paper, we proposed novel noise reduction algorithms that can be used to enhance image quality in various medical imaging modalities such as magnetic resonance and multidetector computed tomography. The noisy captured 3-D data are first transformed by discrete complex wavelet transform. Using a nonlinear function, we model the data as the sum of the clean data plus additive Gaussian or Rayleigh noise. We use a mixture of bivariate Laplacian probability density functions for the clean data in the transformed domain. The MAP and minimum mean-squared error (MMSE) estimators allow us to efficiently reduce the noise. The employed prior distribution is mixture and bivariate, and thus accurately characterizes the heavy-tail distribution of clean images and exploits the interscale properties of wavelets coefficients. In addition, we estimate the parameters of the model using local information; as a result, the proposed denoising algorithms are spatially adaptive, i.e., the intrascale dependency of wavelets is also well exploited in the enhancement process. The proposed approach results in significant noise reduction while the introduced distortions are not noticeable as a result of accurate statistical modeling. The obtained shrinkage functions have closed form, are simple in implementation, and efficiently enhances data. Our experiments on CT images show that among our derived shrinkage functions usually BiLapGausMAP produces images with higher peak SNR. However, BiLapGausMMSE is preferred especially for CT images, which have high SNRs. Furthermore, BiLapRayMAP yields better noise reduction performance for low SNR MR datasets such as high-resolution whole heart imaging while BiLapGauMAP results in better performance in MR data with higher intrinsic SNR such as functional cine data. © 2009 IEEE.

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Style	Citing Format
MLA	Rabbani H, Nezafat R, Gazor S. "Wavelet-Domain Medical Image Denoising Using Bivariate Laplacian Mixture Model." IEEE Transactions on Biomedical Engineering, vol. 56, no. 12, 2009, pp. 2826-2837.
APA	Rabbani H, Nezafat R, Gazor S (2009). Wavelet-Domain Medical Image Denoising Using Bivariate Laplacian Mixture Model. IEEE Transactions on Biomedical Engineering, 56(12), 2826-2837.
Chicago	Rabbani H, Nezafat R, Gazor S. "Wavelet-Domain Medical Image Denoising Using Bivariate Laplacian Mixture Model." IEEE Transactions on Biomedical Engineering 56, no. 12 (2009): 2826-2837.
Harvard	Rabbani H, Nezafat R, Gazor S (2009) 'Wavelet-Domain Medical Image Denoising Using Bivariate Laplacian Mixture Model', IEEE Transactions on Biomedical Engineering, 56(12), pp. 2826-2837.
Vancouver	Rabbani H, Nezafat R, Gazor S. Wavelet-Domain Medical Image Denoising Using Bivariate Laplacian Mixture Model. IEEE Transactions on Biomedical Engineering. 2009;56(12):2826-2837.
BibTex	@article{ author = {Rabbani H and Nezafat R and Gazor S}, title = {Wavelet-Domain Medical Image Denoising Using Bivariate Laplacian Mixture Model}, journal = {IEEE Transactions on Biomedical Engineering}, volume = {56}, number = {12}, pages = {2826-2837}, year = {2009} }
RIS	TY - JOUR AU - Rabbani H AU - Nezafat R AU - Gazor S TI - Wavelet-Domain Medical Image Denoising Using Bivariate Laplacian Mixture Model JO - IEEE Transactions on Biomedical Engineering VL - 56 IS - 12 SP - 2826 EP - 2837 PY - 2009 ER -

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