A Heavy Tailed Expectation Maximization Hidden Markov Random Field Model with Applications to Segmentation of MRI

Diego Castillo-Barnes; Ignacio Peis; Francisco J. Martínez-Murcia; Fermín Segovia; Ignacio A. Illán; Ignacio A. Illán; Juan M. Górriz; Juan M. Górriz; Javier Ramírez; Diego Salas-Gonzalez

doi:10.3389/fninf.2017.00066

Frontiers in Neuroinformatics (Nov 2017)

A Heavy Tailed Expectation Maximization Hidden Markov Random Field Model with Applications to Segmentation of MRI

Diego Castillo-Barnes,
Ignacio Peis,
Francisco J. Martínez-Murcia,
Fermín Segovia,
Ignacio A. Illán,
Ignacio A. Illán,
Juan M. Górriz,
Juan M. Górriz,
Javier Ramírez,
Diego Salas-Gonzalez

Affiliations

Diego Castillo-Barnes: Signal Processing and Biomedical Applications, University of Granada, Granada, Spain
Ignacio Peis: Signal Processing Group, Carlos III University, Madrid, Spain
Francisco J. Martínez-Murcia: Signal Processing and Biomedical Applications, University of Granada, Granada, Spain
Fermín Segovia: Signal Processing and Biomedical Applications, University of Granada, Granada, Spain
Ignacio A. Illán: Signal Processing and Biomedical Applications, University of Granada, Granada, Spain
Ignacio A. Illán: Department of Scientific Computing, Florida State University, Tallahassee, FL, United States
Juan M. Górriz: Signal Processing and Biomedical Applications, University of Granada, Granada, Spain
Juan M. Górriz: Department of Psychiatry, University of Cambridge, Cambridge, United Kingdom
Javier Ramírez: Signal Processing and Biomedical Applications, University of Granada, Granada, Spain
Diego Salas-Gonzalez: Signal Processing and Biomedical Applications, University of Granada, Granada, Spain

DOI: https://doi.org/10.3389/fninf.2017.00066
Journal volume & issue: Vol. 11

Abstract

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A wide range of segmentation approaches assumes that intensity histograms extracted from magnetic resonance images (MRI) have a distribution for each brain tissue that can be modeled by a Gaussian distribution or a mixture of them. Nevertheless, intensity histograms of White Matter and Gray Matter are not symmetric and they exhibit heavy tails. In this work, we present a hidden Markov random field model with expectation maximization (EM-HMRF) modeling the components using the α-stable distribution. The proposed model is a generalization of the widely used EM-HMRF algorithm with Gaussian distributions. We test the α-stable EM-HMRF model in synthetic data and brain MRI data. The proposed methodology presents two main advantages: Firstly, it is more robust to outliers. Secondly, we obtain similar results than using Gaussian when the Gaussian assumption holds. This approach is able to model the spatial dependence between neighboring voxels in tomographic brain MRI.

Published in Frontiers in Neuroinformatics

ISSN: 1662-5196 (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Medicine: Internal medicine: Neurosciences. Biological psychiatry. Neuropsychiatry
Website: https://www.frontiersin.org/journals/neuroinformatics/

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