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film(1) The Computational Morphometry Toolkit film(1)

NAME

film - Fix interleaved motion using inverse interpolation

SYNOPSIS

film InputImage OutputImage

DESCRIPTION

This tool splits an interleaved input image into the pass images, co-registers them, and reconstructs a motion-corrected image

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.
--xml
Write command line syntax specification in XML markup (for Slicer integration).
--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

--padding-value <double>
Set padding value for input image. Pixels with this value will be ignored. [Default: disabled]

Interleaving Options

--interleave-axis
Define interleave axis: this is the through-slice direction of the acquisition. Supported values: "guess-from-input", "axial", "sagittal", "coronal", "interleave-x", "interleave-y", "interleave-z", where the default is "guess-from-input", or use one of the following:
--guess-from-input
Guess from input image [This is the default]
--axial, -a
Interleaved axial images
--sagittal, -s
Interleaved sagittal images
--coronal, -c
Interleaved coronal images
--interleave-x, -x
Interleaved along x axis
--interleave-y, -y
Interleaved along y axis
--interleave-z, -z
Interleaved along z axis
--passes <integer>, -p <integer>
Number of interleaved passes [Default: 2]
--pass-weight <string>, -W <string>
Set contribution weight for a pass in the form 'pass:weight'

Motion Correction / Registration Options

--reference-image <image-path>, -R <image-path>
Use a separate high-resolution reference image for registration [Default: NONE]
--registration-metric
Registration metric for motion estimation by image-to-image registration. Supported values: "nmi", "mi", "cr", "msd", "cc", where the default is "msd", or use one of the following:
--nmi
Use Normalized Mutual Information for pass-to-refereence registration
--mi
Use standard Mutual Information for pass-to-refereence registration
--cr
Use Correlation Ratio for pass-to-refereence registration
--msd
Use Mean Squared Differences for pass-to-refereence registration [This is the default]
--cc
Use Cross-Correlation for pass-to-refereence registration
--import-xforms-path <path>
Path of file from which to import transformations between passes. [Default: NONE]
--export-xforms-path <path>
Path of file to which to export transformations between passes. [Default: NONE]

Initial Volume Injection Options

--injection-kernel-sigma <double>, -S <double>
Standard deviation of Gaussian kernel for volume injection in multiples of pixel size in each direction. [Default: 0.5]
--injection-kernel-radius <double>, -r <double>
Truncation radius factor of injection kernel. The kernel is truncated at sigma*radius, where sigma is the kernel standard deviation. [Default: 2]

Inverse Interpolation Options

--inverse-interpolation-kernel
Kernel for the inverse interpolation reconstruction Supported values: "cubic", "linear", "hamming-sinc", "cosine-sinc", where the default is "cubic", or use one of the following:
--cubic, -C
Tricubic interpolation [This is the default]
--linear, -L
Trilinear interpolation (faster but less accurate)
--hamming-sinc, -H
Hamming-windowed sinc interpolation
--cosine-sinc, -O
Cosine-windowed sinc interpolation (most accurate but slowest)
--fourth-order-error, -f
Use fourth-order (rather than second-order) error for optimization.
--num-iterations <integer>, -n <integer>
Maximum number of inverse interpolation iterations [Default: 20]

Reconstruction Regularization Options

--l-norm-weight <double>
Set constraint weight for Tikhonov-type L-Norm regularization (0 disables constraint) [Default: 0]
--no-truncation, -T
Turn off regional intensity truncatrion

Output Options

--write-injected-image <image-path>
Write initial volume injection image to path [Default: NONE]
--write-images-as-float, -F
Write output images as floating point [default: same as input]

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.
Jan 25 2019 CMTK 3.3.1p1