2006 AdaptiveNonparMarkovModelsAndInfThMethods
- (Awate, 2006) ⇒ Suyash P. Awate. (2006). “Adaptive Nonparametric Markov Models and Information-Theoretic Methods for Image Restoration and Segmentation." Ph.D. Dissertation. University of Utah.
Subject Headings: Markov Random Fields.
Notes
- HTML version available at http://www.cs.utah.edu/~suyash/Dissertation_html
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Abstract
The regularity in data fundamentally distinguishes itself from random noise. Describing this regularity in generic, yet powerful, ways is one of the key problems in signal processing. One way of capturing image regularity is by incorporating a priori information into the image model itself. Approaches extracting such prior information from training data have limited utility because of the lack of effective training sets for most applications. Unsupervised approaches that, typically, encode prior information via parametric models work best only when the data conforms to that model. Certain kinds of problems do not adhere to strict models, entailing unsupervised approaches to be adaptive. Statistical-inference methodologies that allow us to learn the underlying structure and variability in the data form important tools in adaptive signal processing.
This dissertation presents an adaptive Markov-random-field (MRF) image model that automatically learns the local statistical dependencies via data-driven nonparametric techniques. We use this model to create adaptive algorithms for processing images. We incorporate prior information, when available, through optimal Bayesian frameworks. We enforce optimality criteria based on fundamental information-theoretic concepts that capture the functional dependence and information content in the data.
We employ this adaptive-MRF framework for effectively solving several classic problems in image processing, computer vision, and medical image analysis. Inferring the statistical structure underlying corrupted images enables us to restore images without enforcing strong models on the signal. The restoration iteratively improves the predictability of pixel intensities from their neighborhoods, by decreasing their joint entropy. When the nature of noise is known, we present an effective empirical-Bayesian reconstruction strategy. We also present a method to optimally estimate the uncorrupted-signal statistics from the observed corrupted-signal statistics by minimizing a KL-divergence measure. We apply this adaptive-MRF framework to classify tissues in magnetic resonance (MR) images of the human brain by maximizing the mutual information between the classification labels and image data, capturing their mutual dependency. The generic formulation enables the method to adapt to different MR modalities, noise, inhomogeneities, and partial-voluming. We incorporate a priori information via probabilistic brain-tissue atlases. We use a similar strategy for texture segmentation, using fast threshold-dynamics-based level-set techniques for regularization.,
| Author | volume | Date Value | title | type | journal | titleUrl | doi | note | year | |
|---|---|---|---|---|---|---|---|---|---|---|
| 2006 AdaptiveNonparMarkovModelsAndInfThMethods | Suyash P. Awate | Adaptive Nonparametric Markov Models and Information-Theoretic Methods for Image Restoration and Segmentation | http://www.cs.utah.edu/~suyash/Dissertation html |