Segmentation by Posterior Optimization of M-reps: Strategy and Results (2008)
Stephen M. Pizer, Robert E. Broadhurst, Joshua Levy, Xioaxiao Liu, Ja-yeon Jeong, Joshua Stough, ...
Abstract. For many years we have been developing a variety of methods that together would allow segmentation of 3D objects from medical images in a way reflecting knowledge of both the population of...
Abstract Training Models of Anatomic Shape Variability Medical Physics MS #07-339 (2008)
Derek Merck, Gregg Tracton, Rohit Saboo, Joshua Levy, Edward Chaney, Stephen Pizer, ...
Learning probability distributions of the shape of anatomic structures requires fitting shape representations to human expert segmentations from training sets of medical images. The quality of...
Deformable M-Reps for 3D Medical Image Segmentation 1 (2007)
Stephen M. Pizer, P. Thomas Fletcher, Yonatan Fridman, Daniel S. Fritsch, A. Graham Gash, John M. Glotzer, ...
Additional figures showing more results, some in color and some in motion, can be found on the web at www.cs.unc.edu/Research/Image/MIDAG/defmreps. M-reps (formerly called DSLs) are a multiscale...
MASK: combining 2D and 3D segmentation methods to enhance functionality (2007)
Gregg Tracton, Edward Chaney, Julian Rosenman And Stephen Pizer, Julian Rosenman, Stephen Pizer
Image segmentation, in particular, defining normal anatomic structures and diseased or malformed tissue from tomographic images, is common in medical applications. Defining tumors or arterio-venous...
Prepared By, Jonathan Jacky, Martin Weinhous, James Coggins, Robert Drzymala, William Harms, ...
this document
Common Lisp Language Bindings to the Foundation and Virtual Machine Platform (2007)
Radiotherapy Treatment, Jonathan Jacky, Ira Kalet, Michael Kahn, Steve Cousins, Gregg Tracton
This document is a product of the Collaborative Working Group on Radiotherapy Treatment Planning Tools [1]. It is one of the documents called for by the Documentation Task Group [2]. This document...
Stephen M. Pizer, P. Thomas Fletcher, Sarang Joshi, Andrew Thall, James Z. Chen, Yonatan Fridman, ...
Abstract. M-reps (formerly called DSLs) are a multiscale medial means for modeling and rendering 3D solid geometry. They are particularly well suited to model anatomic objects and in particular to...
Segmentation of single-figure objects by deformable M-reps (2001)
Stephen M. Pizer, Sarang Joshi, P. Thomas Fletcher, Martin Styner, Gregg Tracton, James Z. Chen
This paper describes the behavior of segmentation of single figures in 3D by deformable m-reps models. Results are given for the segmentation of kidneys from CT and of hippocampi from MR images....
Segmentation of single-figure objects by deformable M-reps (2001)
Stephen M. Pizer, Sarang Joshi, P. Thomas Fletcher, Martin Styner, Gregg Tracton, James Z. Chen
This paper describes the basis and behavior of segmentation of single figures in 3D by deformable m-reps models. Results are given for the segmentation of kidneys from CT and of hippocampi from MR...
Segmentation of single-figure objects by deformable M-reps (2001)
Stephen M. Pizer, Sarang Joshi, P. Thomas Fletcher, Martin Styner, Gregg Tracton, James Z. Chen
This paper describes the basis and behavior of segmentation of single figures in 3D by deformable m-reps models. Results are given for the segmentation of kidneys from CT and of hippocampi from MR...
Deformable M-Reps for 3D Medical Image Segmentation (2000)
Stephen M. Pizer, P. Thomas Fletcher, Yonatan Fridman, Daniel S. Fritsch, A. Graham Gash, John M. Glotzer, ...
M-reps (formerly called DSLs) are a multiscale medial means for modeling and rendering 3D solid geometry. They are particularly well suited to the modeling of anatomic objects, producing models that...
Gregg Tracton, Jun Chen, Edward Chaney
An automatic contour tiler (CTI) has been designed and implemented for use with planar, simple, possibly concave, non-intersecting "wireloop" contours which are typical in medical...