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NAME

       micalc -  Performs basic mathematics with data sets

DESCRIPTION

       micalc:  Performs basic mathematics with data sets

              File  formats  are  automatically  identified  by their file extension.  For binary
              operations with two input files, the protocol of the first input file will be  used
              for the output file.

       This  program is part of odin 2.0.5 with configuration  using_gcc debug gui(:5) standalone
       dl posix_threads libz gsl nifti vtk dicom png ismrmrd gdb

   micalc can be used in one of the following modes:
              Binary operation with data sets and/or scalar numbers:

              micalc     [-if1      <input-file1>      |      -in1      <input-number1>]      -op
              <operation(+,-,*,/,min,max,lcorr,kcorr)>     [-if2     <input-file2>     |     -in2
              <input-number1>] -of <output-file>

              Accumulation/reduction of one data set:

              micalc -if <input-file> -op <operation(+,*,mean,median,stdev,min,max)>

              Transformation (magnitude, logarithm, ...) of one data set:

              micalc   -if   <input-file>    -op    <operation(abs,sqrt,log,exp,-,/,acos)>    -of
              <output-file>

              Statistics of one data set:

              micalc -if <input-file>

              [-mean       <time-mean-file>]       [-stdev       <time-stdev-file>]       [-fluct
              <relative-time-stdev-file>] [-tcourse <average time course of all  voxels>]  [-hist
              <histogram>   -histslots   <numofslots>  [-histmin  <minval>]  [-histmax  <maxval>]
              [-rightstairs]    [-histfract]    [-loghist]    [-histslotmap    <file>]]     [-cog
              <center-of-gravity-file>]

   Extra options:
       -mask <Binary mask file: voxels with zeroes are discarded>

   Protocol options (overrides parameters in input data):
       -aa: azimuthal rotation angle [deg] (default=0.0)

       -ah: height rotation angle [deg] (default=0.0)

       -ai: inplane rotation angle [deg] (default=0.0)

       -date: Date of scan [yyyymmdd] (default=20211015)

       -fp: FOV in phase direction [mm] (default=220.0)

       -fr: FOV in read direction [mm] (default=220.0)

       -fs: FOV in slice direction [mm] (default=5.0)

       -nr: Number of consecutive measurements (default=1)

       -nx: Number of points in read direction (default=128)

       -ny: Number of points in phase direction (default=128)

       -nz: Number of points in slice direction (default=1)

       -pbirth: Patients date of birth [yyyymmdd] (default=00000000)

       -pid: Unique patient identifier (default=Unknown)

       -pname: Full patient name (default=Unknown)

       -psex: Patients sex (options=M F O , default=O)

       -psize: Patients size/height [mm] (default=2000.0)

       -pweight: Patients weight [kg] (default=50.0)

       -rcname: Name of receive coil (default=Unknown)

       -scient: Scientist Name (default=Unknown)

       -sd: Inter-slice distance (from center to center) [mm] (default=10.0)

       -serd: Series Description (default=Unknown)

       -serno: Series Number (default=1)

       -st: Slice thickness [mm] (default=5.0)

       -stud: Study Description (default=Unknown)

       -tcname: Name of transmit coil (default=Unknown)

       -te: Time-to-echo of the sequence [ms] (default=80.0)

       -time: Time of scan [hhmmss] (default=104600)

       -tr: Time between consecutive excitations [ms] (default=1000.0)

   File read options (will be applied to input data before processing):
       -cplx:  Treat  data  as complex and extract the given component (options=none abs pha real
              imag , default=none)

       -ds: Dataset index to extract if multiple datasets are read

       -filter: Read only those datasets which  protocol  parameter  'key'  contains  the  string
              'value' (given in the format 'key=value')

       -fmap:  For  reduced  memory usage, keep filemapping after reading (raw) data, but writing
              into the array will result in a crash

       -framesplit: Force  splitting  frames  with  different  acquisition  times  into  separate
              protocol-data pairs

       -ldr: If multiple LDR (labeled data record) arrays are present, select this

       -rdialect: Read data using given dialect of the format (default is no dialect)

       -rf:  Read  format,  use it to override file extension (options=autodetect 3db analyze asc
              coi dat dcm double float gz h5 hdr idx ima interfile jdx mag mhd nii ph png pos pro
              reg s16bit s32bit s8bit smp u16bit u32bit u8bit vtk xml xpro , default=autodetect)

       -skip: Skip this amount of bytes before reading the raw data (default=0)

   File write options (will be applied to output data after processing):
       -append: Append to existing file, only for raw data

       -fnamepar:  Space-separated  list  of  protocol parameters to include when creating unique
              file names

       -noscale: Do not rescale values when storing integers

       -split: Force splitting of protocol-data pairs into separate files.

       -type: Image representation type (options=automatic  float  double  s32bit  u32bit  s16bit
              u16bit s8bit u8bit , default=automatic)

       -wdialect: Write data using given dialect of the format (default is no dialect)

       -wf:  Write  format, use it to override file extension (options=autodetect 3db analyze asc
              coi dat dcm double float gz h5 hdr idx ima interfile jdx mag mhd nii ph png pos pro
              reg s16bit s32bit s8bit smp u16bit u32bit u8bit vtk xml xpro , default=autodetect)

       -wp: Store the protocol separately to this file.

   Filters/processing  applied to input file(s) and mask, applied in the order they appear on the
       command line:
       -align <filename,In-plane blowup factor (default=0)> : Align data to the  geometry  (voxel
              locations) of an external file

       -automask  <skip  leftmost  slots  (default=0),dump histogram,dump histogram fit> : Create
              binary mask using automatic histogram-based threshold

       -cluster : Create clusters of non-zero adjacent/next-neighbours voxels, sorted by size

       -convolve <convolution kernel (default=noFunction) (Gauss NoFilter Triangle  Hann  Hamming
              CosSq  Blackman  BlackmanNuttall  Exp  ),full-width-at-half-maximum  of kernel [mm]
              (default=0.0)> : Convolution in spatial dimensions

       -detrend <Number of low frequency  components  to  be  removed  (default=5),Zero  mean  of
              resulting timecourse (default=No)> : Remove slow drift over time

       -dilate  <radius  of  kernel  [mm] (default=0.0)> : dilate image using spherical kernel as
              structuring element

       -edit   <string   in    the    format    (timerange,slicerange,phaserange,readrange),value
              (default=0.0)>  :  Edit  voxel  values  with range specified as single position, or
              'all', or explicit range, optionally with increment (e.g. 1-10:3)

       -erode <radius of kernel [mm] (default=0.0)> :  erode  image  using  spherical  kernel  as
              structuring element

       -genmask  <lower  threshold  (default=0.0),upper  threshold (default=0.0)> : Create binary
              mask including all voxels with value in given range

       -inv : Invert image values, i.e. lowest to highest and vice versa

       -isotrop <voxelsize [mm] (default=0.0)> : make image voxels isotrop through  interpolation
              (image geometry will not change), set to zero for minimum extent

       -lowpass <Cut-off frequency [Hz] (default=0.0)> : Lowpass filtering

       -max <Maximum value (default=0.0)> : Clip all values above maximum value

       -maxip  <direction  (time  slice phase read none )> : Perform maximum intensity projection
              over given direction

       -merge : Merge datasets into a single dataset by expanding the time dimension

       -min <Minimum value (default=0.0)> : Clip all values below minimum value

       -minip <direction (time slice phase read none )> : Perform  minimum  intensity  projection
              over given direction

       -noNaN <Replacement value (default=0.0)> : Replaces every NaN by the given value

       -nonzeromask : Create binary mask including all voxels with non-zero value

       -pflip : Flip data in phase direction

       -prange  <single  position,  or  'all', or explicit range, optionally with increment (e.g.
              1-10:3)> : Select range in phase direction

       -proj <direction (time slice phase read none )>  :  Perform  mean  projection  over  given
              direction

       -quantilmask  <quantil  (default=0.0)> : Create binary mask including all voxels above the
              given fractional threshold

       -resample <new size (default=0)> : Temporal resize of image data

       -resize <slice-size (default=0),phase-size (default=0),read-size  (default=0)>  :  Spatial
              resize of image data

       -reslice  <requested  orientation  (default=coronal) (sagittal coronal axial )> : reslices
              the image to a given orientation

       -rflip : Flip data in read direction

       -rot <angle [deg] (default=0.0),kernel size [pixel] (default=1.41421)> : In-plane rotation

       -rrange <single position, or 'all', or explicit range,  optionally  with  increment  (e.g.
              1-10:3)> : Select range in read direction

       -scale <Slope (default=1.0),Offset (default=0.0)> : Rescale image values

       -sflip : Flip data in slice direction

       -shift   <readDirection   shift   [pixel]   (default=0.0),phaseDirection   shift   [pixel]
              (default=0.0),sliceDirection shift [pixel] (default=0.0)> : Shift data spatially

       -slicetime <space-separated list of slice indices in order of acquisition> :  Correct  for
              different acquisition time points of slices

       -spheremask   <Position  string  in  the  format  (slicepos,phasepos,readpos),radius  [mm]
              (default=0.0)> : Create binary spherical mask

       -splice <dimension of the data to be spliced (time slice phase read none )> : splices  the
              image in the given direction

       -srange  <single  position,  or  'all', or explicit range, optionally with increment (e.g.
              1-10:3)> : Select range in slice direction

       -sum <direction (time slice phase read  none  )>  :  Perform  sum  projection  over  given
              direction

       -swapdim  <[rps][-],[rps][-],[rps][-]> : swap/reflect/transpose dimensions by specifying a
              direction triple with optional reflection sign appended

       -tile <columns (default=0)> : Combine slices into a square 2D image

       -trange <single position, or 'all', or explicit range,  optionally  with  increment  (e.g.
              1-10:3)> : Select range in time direction

       -tshift <time shift [frames] (default=0.0)> : Shift data in time

       -typemax <Datatype> : Clip all values above maximum of a specific datatype

       -typemin <Datatype> : Clip all values below minimum of a specific datatype

       -usemask <filename> : Create 1D dataset including all values within binary mask from file

   Other options:
       -v  <loglevel>  or  <component:loglevel>  for debugging/tracing all components or a single
              component, respectively. Possible values for loglevel are:  0(noLog),  1(errorLog),
              2(warningLog), 3(infoLog), 4(significantDebug), 5(normalDebug), 6(verboseDebug).

       -h, --help, -help, --version : Print help text or version information

   Supported file extensions(formats):
       3db    (Iris3D binary data)

       analyze
              (NIFTI/ANALYZE, dialects: fsl)

       asc    (ASCII, dialects: tcourse)

       coi    (JCAMP-DX data sets)

       dat    (Matlab ascii 2D data matrix)

       dcm    (DICOM, dialects: siemens)

       double (double raw data)

       float  (float raw data)

       gz     (GNU-Zip container for other formats)

       h5     (ISMRMRD Image)

       hdr    (Interfile, dialects: neurostat)

       hdr    (NIFTI/ANALYZE, dialects: fsl)

       idx    (3D-indices of non-zeroes in ASCII, dialects: addval)

       ima    (DICOM, dialects: siemens)

       interfile
              (Interfile, dialects: neurostat)

       jdx    (ODIN  Image  based  on  JCAMP-DX (Joint Committee on Atomic and Molecular Physical
              Data))

       mag    (DICOM, dialects: siemens)

       mhd    (MetaImage)

       nii    (NIFTI/ANALYZE, dialects: fsl)

       ph     (DICOM, dialects: siemens)

       png    (Portable Network Graphics)

       pos    (x-y positions of non-zeroes in ASCII)

       pro    (ODIN protocols based on JCAMP-DX (Joint Committee on Atomic and Molecular Physical
              Data))

       reg    (Ansoft HFSS ASCII)

       s16bit (signed 16 bit raw data)

       s32bit (signed 32 bit raw data)

       s8bit  (signed 8 bit raw data)

       smp    (JCAMP-DX data sets)

       u16bit (unsigned 16 bit raw data)

       u32bit (unsigned 32 bit raw data)

       u8bit  (unsigned 8 bit raw data)

       vtk    (Visualization Toolkit, vtkStructuredPoints)

       xml    (ODIN Image based on XML (Extensible Markup Language))

       xpro   (ODIN protocols based on XML (Extensible Markup Language))