Prodip Hore scite author profile

A fast, accurate and fully automatic method of segmenting magnetic resonance images of the human brain is introduced. The approach scales well allowing fast segmentations of fine resolution images. The approach is based on modifications of the soft clustering algorithm, fuzzy c-means, that enable it to scale to large data sets. Two types of modifications to create incremental versions of fuzzy c-means are discussed. They are much faster when compared to fuzzy c-means for medium to extremely large data sets because they work on successive subsets of the data. They are comparable in quality to application of fuzzy c-means to all of the data. The clustering algorithms coupled with inhomogeneity correction and smoothing are used to create a framework for automatically segmenting magnetic resonance images of the human brain. The framework is applied to a set of normal human brain volumes acquired from different magnetic resonance scanners using different head coils, acquisition parameters and field strengths. Results are compared to those from two widely used magnetic resonance image segmentation programs, Statistical Parametric Mapping and the FMRIB Software Library (FSL). The results are comparable to FSL while providing significant speed-up and better scalability to larger volumes of data.

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Online fuzzy c means

Hore

Hall

Goldgof

et al. 2008

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A scalable framework for cluster ensembles

Hore

Hall

Goldgof

2009

Pattern Recognition

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Hard/fuzzy-k-means Large data sets Ensemble Scalability Single pass algorithm An ensemble of clustering solutions or partitions may be generated for a number of reasons. If the data set is very large, clustering may be done on tractable size disjoint subsets. The data may be distributed at different sites for which a distributed clustering solution with a final merging of partitions is a natural fit. In this paper, two new approaches to combining partitions, represented by sets of cluster centers, are introduced. The advantage of these approaches is that they provide a final partition of data that is comparable to the best existing approaches, yet scale to extremely large data sets. They can be 100,000 times faster while using much less memory. The new algorithms are compared against the best existing cluster ensemble merging approaches, clustering all the data at once and a clustering algorithm designed for very large data sets. The comparison is done for fuzzy and hard-k-means based clustering algorithms. It is shown that the centroid-based ensemble merging algorithms presented here generate partitions of quality comparable to the best label vector approach or clustering all the data at once, while providing very large speedups.

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A Cluster Ensemble Framework for Large Data sets

Hore

Hall

Goldgof

2006

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Abstract-Combining multiple clustering solutions is important for obtaining a robust clustering solution, merging distributed clustering solutions, and scaling to large data sets. Combining multiple clustering solutions within a scalable and robust framework for large data sets is addressed here. Merging multiple clustering solutions in a scalable framework requires both cluster ensemble creation and merging to be efficient in terms of time and memory complexity. We also introduce the concept of filtering malformed clusters from the ensemble. They result from unfortunate initialization or unbalanced data distribution or noise. Experimental results on real data sets show that this approach will scale and provide cluster partitions which are functionally better or equivalent when compared to clustering all the data at once and clustering solutions contained in the ensemble. We have also compared our algorithm with other relevant ensemble merging and scalable algorithms to point out its strengths and limitations.

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Prodip Hore

Single Pass Fuzzy C Means

A Scalable Framework For Segmenting Magnetic Resonance Images

Online fuzzy c means

A scalable framework for cluster ensembles

A Cluster Ensemble Framework for Large Data sets

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