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The EM Method in a Probabilistic Wavelet-Based MRI Denoising.

Marcos Martin-FernandezSergio Villullas
Published in: Computational and mathematical methods in medicine (2015)
Human body heat emission and others external causes can interfere in magnetic resonance image acquisition and produce noise. In this kind of images, the noise, when no signal is present, is Rayleigh distributed and its wavelet coefficients can be approximately modeled by a Gaussian distribution. Noiseless magnetic resonance images can be modeled by a Laplacian distribution in the wavelet domain. This paper proposes a new magnetic resonance image denoising method to solve this fact. This method performs shrinkage of wavelet coefficients based on the conditioned probability of being noise or detail. The parameters involved in this filtering approach are calculated by means of the expectation maximization (EM) method, which avoids the need to use an estimator of noise variance. The efficiency of the proposed filter is studied and compared with other important filtering techniques, such as Nowak's, Donoho-Johnstone's, Awate-Whitaker's, and nonlocal means filters, in different 2D and 3D images.
Keyphrases
  • convolutional neural network
  • magnetic resonance
  • deep learning
  • contrast enhanced
  • air pollution
  • magnetic resonance imaging
  • endothelial cells
  • machine learning
  • heat stress
  • computed tomography