Title :
Images as Occlusions of Textures: A Framework for Segmentation
Author :
McCann, Michael T. ; Mixon, Dustin G. ; Fickus, Matthew C. ; Castro, Carlos A. ; Ozolek, John A. ; Kovac̆evicÌ, Jelena
Author_Institution :
Dept. of Biomed. Eng., Carnegie Mellon Univ., Pittsburgh, PA, USA
Abstract :
We propose a new mathematical and algorithmic framework for unsupervised image segmentation, which is a critical step in a wide variety of image processing applications. We have found that most existing segmentation methods are not successful on histopathology images, which prompted us to investigate segmentation of a broader class of images, namely those without clear edges between the regions to be segmented. We model these images as occlusions of random images, which we call textures, and show that local histograms are a useful tool for segmenting them. Based on our theoretical results, we describe a flexible segmentation framework that draws on existing work on nonnegative matrix factorization and image deconvolution. Results on synthetic texture mosaics and real histology images show the promise of the method.
Keywords :
deconvolution; image segmentation; image texture; matrix decomposition; algorithmic framework; histology images; image deconvolution; image processing; image texture; mathematical framework; nonnegative matrix factorization; occlusions; synthetic texture mosaics; unsupervised image segmentation; Biomedical imaging; Deconvolution; Educational institutions; Histograms; Image edge detection; Image segmentation; Microscopy; Image segmentation; deconvolution; image segmentation; local histograms; non-negative matrix factorization; occlusion models; texture;
Journal_Title :
Image Processing, IEEE Transactions on
DOI :
10.1109/TIP.2014.2307475
