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Michigan Image Reconstruction Toolbox (MIRT) - Matlab Version https://github.com/JeffFessler/mirt

This directory contains various algorithms for image reconstruction and other inverse problems such as image restoration and image registration. It also contains code for related applications including MRI pulse design.

For many years this toolbox was posted as a (too large) .tgz file here: http://web.eecs.umich.edu/~fessler/code/index.html

This github version is a work-in-progress. All the code is here, but to keep the repo size small, the data and the compiled mex files are not included. Currently one must still use the .tgz file to get all of that. I will eventually work on some other way to distribute the data and mex files.

This Matlab code is no longer being very actively maintained because I am switching to using Julia instead. See: https://github.com/JeffFessler/MIRT.jl

GETTING STARTED

After installing the toolbox, use matlab's path functionality to put the top level directory in its path (or launch matlab from that directory). Then run the file setup.m that will add all the appropriate subdirectories to the path. You may find it convenient to read setup.m and customize it.

I recommend running and examining some of the files in the example/ directory or any of the many ..._example.m files around, such as emission/eml_osem_example.m

Many example files prompt you to hit enter before continuing, so you (and I) can see the output of each stage before proceeding. To change this behavior, execute prompt run (See utilities/prompt.m for help.)

A few examples may require the binary programs wt or op that are part of Aspire. You can also get Aspire for free by following the instructions at http://web.eecs.umich.edu/~fessler/aspire/index.html There are also mex files that you may need: wtfmex and f3dmex for example. I distribute these only in linux/mac formats; see mex/ directory.

Part of my motivation for creating these files is to accompany a book on image reconstruction that I am currently writing. If you have any problems with these m-files, or any suggestions, I welcome your input!

Jeff Fessler, http://web.eecs.umich.edu/~fessler/

Subdirectories (in alphabetical order):

  • align image registration tools

  • blob SPECT reconstruction with blob basis functions (not recommended)

  • contrib algorithms contributed by others. these directories are not added to the path by setup.m so the user must modify the path to use them.

  • contrib/ppcd test routines comparing WLS-CD, WLS-GCD, WLS-PPCD (these are mostly for internal UM use)

  • ct polyenergetic CT routines (beam hardening, dual energy, etc.)

  • data data for examples (not in github version)

  • doc see the pdf file within (not in github version) for some introductory documentation.

  • emission algorithms for Poisson emission tomography PET/SPECT/ Poisson regression

    • eml_ emission maximum likelihood
    • eql_ emission quadratically penalized likelihood
    • epl_ emission penalized likelihood
  • example example(s) of usage. there are more examples in other directories too. running any of these examples is a good place to start!

  • fbp filter-backproject reconstruction, including 2D parallel and fan-beam and 3D Feldkamp (FDK) cone beam reconstruction

  • freemat (not in github version) work in progress, towards making the code run with freemat (obsolete: use octave instead of freemat) (better yet, just use Julia)

  • general some algorithms that work for generic image reconstruction problems

  • graph graphics functions

  • mex MEX (matlab executables), including some C99 source code

  • mri MR image reconstruction

  • mri-rf MR pulse design tools, including Spectral-spatial pulse design for phase precompensatory slice selection. (more to come)

  • nufft non-uniform FFT (NUFFT) toolbox

  • octave (not in github version) work in progress, towards making the code run with octave (this is a moving target as both octave and matlab evolve)

  • penalty functions associated with regularization

  • systems system matrices and system matrix object classes If you are interested in edge-preserving image restoration for a shift-invariant blur model with additive gaussian noise, then start with systems/Gblur_test.m and example/restore_example.m For 2D tomography, consider starting with systems/Gomo2_strip.m, which is used in many of the examples.

  • transmission algorithms for Poisson transmission tomography

    • tml_ transmission ML
    • tql_ transmission quadratically penalized likelihood
    • tpl_ transmission penalized likelihood
  • utilities useful functions for image reconstruction algorithms.

  • wls algorithms associated with the weighted least squares (WLS) cost function and penalized versions thereof

    • pwls_ penalized weighted least squares
    • qpwls_ quadraticaly penalized weighted least squares

Most algorithms also include a test routine...

Additional notes:

Raymod Muzic has matlab routines for reading ECAT files available: http://www.nuclear.uhrad.com/comkat (I have not yet tried them myself.)

One of many annoying issues with Matlab is that it can store sparse matrices only as doubles, wasting memory, and if you do S * x, where S is a sparse matrix and x is a vector of class single, Matlab (as of 2016a) gives an error message rather than politely upgrading x to a double. The object Gsparse.m provides a work around for this. Complain to Mathworks that they should fix this annoyance...

Windows users:

Some of the subdirectories of the systems directory contain "links" to m-files in other directories. (These are created using ln -s in unix.) These links are also in the .tar file as soft links. But these links may not be recognized by Windoze, resulting in various error messages. They work fine on Mac OSX since it is unix "under the hood." I recommend that you avoid using Windows. But if you insist, then you will have to figure out how to fix those links or copy the appropriate m-files into the appropriate directories.

Another problem is that apparently windoze is case insensitive. I believe I have purged most of the m-files that had capitalized names now. Nevertheless, at this point it would be better to just install linux instead. Or switch to Julia.

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