Modules:FuzzySegmentationModule

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Module Name

Fuzzy Tissue Classification

Module UI
Input Image with Mask
Segmentation Results

General Information

Module Type & Category

Type: CLI

Category: Segmentation

Authors, Collaborators & Contact

  • Author: Xiaodong Tao
  • Contact: taox at research.ge.com

Module Description

This module computes voxel by voxel tissue classification of an MR brain image using a fuzzy c-means algortihm. Bias field is modeled as a lower order polynomial. Bias field and tissue classification are estimated iteratively in an EM fashion. Internally, each voxel is assigned tissue membership function values, which range from 0 to 1. At any voxel, the sum of membership function of all classes is either 0 (outside of brain), or 1. The membership functions are converted in tissue labels to generate hard segmentation.

Usage

Examples, Use Cases & Tutorials

Quick Tour of Features and Use

Development

Dependencies

Known bugs

None.

Usability issues

None.

Source code & documentation

Source Code:

XML Description:

Usage:

USAGE: 

   ../Slicer3-ext/BrainTissueClassification-build/lib/Slicer3/Plugins/Tissu
                                        eClassification 
                                        [--returnparameterfile
                                        <std::string>]
                                        [--processinformationaddress
                                        <std::string>] [--xml] [--echo] [-b
                                        <int>] [-c <int>] [--] [--version]
                                        [-h] <std::string> <std::string>
                                        <std::string> <std::string>


Where: 

   --returnparameterfile <std::string>
     Filename in which to write simple return parameters (int, float,
     int-vector, etc.) as opposed to bulk return parameters (image,
     geometry, transform, measurement, table).

   --processinformationaddress <std::string>
     Address of a structure to store process information (progress, abort,
     etc.). (default: 0)

   --xml
     Produce xml description of command line arguments (default: 0)

   --echo
     Echo the command line arguments (default: 0)

   -b <int>,  --biasoption <int>
     Option for bias correction (0: no bias correction; 1: global linear;
     2: global quadratic; 3: region based linear; 4: region based
     quadratic) (default: 0)

   -c <int>,  --class <int>
     Number of classes (default: 3)

   --,  --ignore_rest
     Ignores the rest of the labeled arguments following this flag.

   --version
     Displays version information and exits.

   -h,  --help
     Displays usage information and exits.

   <std::string>
     (required)  Input T1 Image.

   <std::string>
     (required)  Only voxels inside the mask are classified

   <std::string>
     (required)  Output brain mask map.

   <std::string>
     (required)  Estimated bias field


   Description: This module computes voxel by voxel tissue classification
   of an MR brain image using a fuzzy c-means algortihm. Bias field is
   modeled as a lower order polynomial. Bias field and tissue
   classification are estimated iteratively in an EM fashion. Internally,
   each voxel is assigned tissue membership function values, which range
   from 0 to 1. At any voxel, the sum of membership function of all classes
   is either 0 (outside of brain), or 1. The membership functions are
   converted in tissue labels to generate hard segmentation.

   Author(s): Xiaodong Tao, taox @ research . ge . com

   Acknowledgements: This work is part of the National Alliance for Medical
   Image Computing (NAMIC), funded by the National Institutes of Health
   through the NIH Roadmap for Medical Research, Grant U54 EB005149.
   Implementation of the Fuzzy Classification was contributed by Dr.
   Ming-Ching Chang from GE Research.

More Information

Acknowledgment

This work is part of the National Alliance for Medical Image Computing (NAMIC), funded by the National Institutes of Health through the NIH Roadmap for Medical Research, Grant U54 EB005149. Implementation of the Fuzzy Classification was contributed by Dr. Ming-Ching Chang from GE Research.

References

  • Ming-ching Chang, Xiaodong Tao “Subvoxel Segmentation and Representation of Brain

Cortex Using Fuzzy Clustering and Gradient Vector Diffusion”, SPIE Medical Imaging, San Diego, CA, 2010.