cmtk-film - Online in the Cloud

This is the command cmtk-film that can be run in the OnWorks free hosting provider using one of our multiple free online workstations such as Ubuntu Online, Fedora Online, Windows online emulator or MAC OS online emulator

PROGRAM:

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

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