Provided by: cmtk_3.0.0-1ubuntu1_amd64
NAME
fit_affine_xform - Fit Single Affine Transformation to Concatenated List
SYNOPSIS
fit_affine_xform InputImage XformList
DESCRIPTION
Fit a linear affine transformation to a list of concatenated, optionally inverted, transformations.
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). Input Options --inversion-tolerance <double> Numerical tolerance of B-spline inversion in mm. Smaller values will lead to more accurate inversion, but may increase failure rate. [Default: 1e-08] Fitting Options --rigid Fit rigid transformation (rotation and translation only) using SVD. --affine Fit full affine transformation (rotation, translation, scales, shears) using pseudoinverse. [This is the default] Output Options --output <transformation-path>, -o <transformation-path> Path for the output transformation. [Default: NONE]
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.