Title :
A statistical appearance model based on intensity quantile histograms
Author :
Broadhurst, Robert E. ; Stough, Joshua ; Pizer, Stephen M. ; Chaney, Edward L.
Author_Institution :
Medical Image Display & Anal. Group, North Carolina Univ., Chapel Hill, NC
Abstract :
We present a novel histogram method for statistically characterizing the appearance of deformable models. In deformable model segmentation, appearance models measure the likelihood of an object given a target image. To determine this likelihood we compute pixel intensity quantile histograms of object-relative image regions from a weighted 3D image volume near the object boundary. We use a Gaussian model to statistically characterize the variation of histograms understood in Euclidean space via the Mallows distance. The probability of gas and bone tissue intensities are separately modeled to leverage a priori information on their expected distributions. The method is illustrated and evaluated in a segmentation study on CT images of the human left kidney. Results show improvement over a profile based appearance model and that the global maximum of the MAP estimate gives clinically acceptable segmentations in almost all of the cases studied
Keywords :
Gaussian processes; bone; computerised tomography; image segmentation; kidney; maximum likelihood estimation; medical image processing; CT images; Euclidean space; Gaussian model; MAP; Mallows distance; bone tissue intensities; deformable model segmentation; gas intensities; human left kidney; object-relative image regions; pixel intensity quantile histograms; statistical appearance model; weighted 3D image volume; Biomedical imaging; Bone tissue; Deformable models; Displays; Histograms; Image analysis; Image segmentation; Pixel; Probability; Statistical distributions;
Conference_Titel :
Biomedical Imaging: Nano to Macro, 2006. 3rd IEEE International Symposium on
Conference_Location :
Arlington, VA
Print_ISBN :
0-7803-9576-X
DOI :
10.1109/ISBI.2006.1624943
