Provided by: cmtk_3.0.0-1ubuntu1_amd64 bug

NAME

       groupwise_affine - Affine population registration

SYNOPSIS

       groupwise_affine [options] image0 [image1 ...]

DESCRIPTION

       This tool registers a population of input images simultaneously, without a template, using
       either the 'congealing' algorithm or a groupwise similarity measure based on a  continuous
       approximation of mutual information ('RMI').

OPTIONS

   Global Toolkit Options (these are shared by all CMTK tools)
       --help
            Write list of basic command line options to standard output.

       --help-all
            Write complete list of basic and advanced command line options to standard output.

       --wiki
            Write list of command line options to standard output in MediaWiki markup.

       --man
            Write man page source in 'nroff' markup to standard output.

       --version
            Write toolkit version to standard output.

       --echo
            Write the current command line to standard output.

       --verbose-level <integer>
            Set verbosity level.

       --verbose, -v
            Increment verbosity level by 1 (deprecated; supported for backward compatibility).

       --threads <integer>
            Set maximum number of parallel threads (for POSIX threads and OpenMP).

   Registration Metric Options
       --rmi
            Use the RMI (a.k.a. regional mutual information) metric to drive the registration).

       --congeal
            Use   the   congealing  algorithm  using  pixelwise  stack  entropies  to  drive  the
            registration.  [This is the default]

   Template Image Options
       --template <string>, -t <string>
            Input filename for pre-defined template image.  [Default: NONE]

       --template-with-data <string>, -T <string>
            Use user-supplied template images's pixel data in registration [Default: disabled]

   Output Options
       --output-root <string>, -O <string>
            Root directory for all output files.  [Default: NONE]

       --output <string>, -o <string>
            Output filename for groupwise registration archive.  [Default: groupwise.xforms ]

       --output-average <string>
            Output filename for registered average image.  [Default: average.nii ]

       --average-linear
            Use linear interpolation for average image [This is the default]

       --average-cubic
            Use cubic interpolation for average image

       --no-output-average
            Do not write average image.

   Multiresolution Parameters
       --downsample-from <integer>, -d <integer>
            Initial downsampling factor [Default: 4]

       --downsample-to <integer>, -D <integer>
            Final downsampling factor.  [Default: 1]

       --sampling-density <float>, -s <float>
            Probabilistic sampling density. Legal values between 0 and 1.  [Default: disabled]

   Image Options and Operations
       --force-background <integer>, -B <integer>
            Force background pixels (outside FOV) to given (bin) value.  [Default: disabled]

       --histogram-bins <integer>, -H <integer>
            Manually set number of histogram bins for entropy evaluation [Default: disabled]

       --crop-histograms
            Crop image histograms to make better use of histogram bins.

       --smooth <double>
            Sigma of Gaussian smoothing  kernel  in  multiples  of  template  image  pixel  size.
            [Default: disabled]

       --match-histograms
            Match  all image histograms to template data (or first image, if no template image is
            given)

       --free-and-reread
            Free memory allocated for original image whenever these are not  needed  and  re-read
            image  files  as  needed.  This  can be useful when running on a machine with limited
            memory resources.

   Transformation Parameters
       --dofs <integer>[,<integer>,...]
            Add DOFs to list [default: one pass, 6 DOF]

       --zero-sum, -z
            Enforce zero-sum computation.

       --normal-group-first-n <integer>, -N <integer>
            First N images  are  from  the  normal  group  and  should  be  registered  unbiased.
            [Default: 0]

       --zero-sum-first-n <integer>, -Z <integer>
            Enforce zero-sum computation for first N images.  [Default: disabled]

   Transformation Initialization
       --align-bounding-boxes
            Initially  align centers of bounding boxes of all images by translations [This is the
            default]

       --align-centers-of-mass
            Initially align centers of mass by translations

       --init-scales
            Initialize scale factors using first-order moments

   Optimization Parameters
       --exploration <double>, -e <double>
            Exploration of optimization in pixels [Default: 0.25]

       --accuracy <double>, -a <double>
            Accuracy of optimization in pixels [Default: 0.01]

       --repeat-level <integer>, -r <integer>
            Number of repetitions per optimization level [Default: 5]

       --step-factor <double>, -S <double>
            Step factor for successive optimization passes [Default: 0.5]

       --delta-f-threshold <double>
            Optional threshold to terminate optimization (level) if  relative  change  of  target
            function drops below this value.  [Default: 0]

       --disable-optimization
            Disable optimization and output initial configuration.

AUTHORS

       Torsten  Rohlfing,  with  contributions  from  Michael  P. Hasak, Greg Jefferis, Calvin R.
       Maurer, Daniel B. Russakoff, and Yaroslav Halchenko

LICENSE

       http://www.fsf.org/licensing/licenses/gpl.html

BUGS

       Report bugs at http://nitrc.org/projects/cmtk/

ACKNOWLEDGMENTS

       CMTK is developed with support from the NIAAA under Grant AA021697, National Consortium on
       Alcohol  and  Neurodevelopment  in Adolescence (N-CANDA): Data Integration Component. From
       April 2009 through September 2011, CMTK development and maintenance was supported  by  the
       NIBIB under Grant EB008381.