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reference:ft_sloreta [2018/08/23 14:43] (current)
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 +=====  FT_SLORETA =====
 +
 +Note that this reference documentation is identical to the help that is displayed in MATLAB when you type "help ft_sloreta"​.
 +
 +<​html><​pre>​
 +  ft_sloreta scans on pre-defined dipole locations with a single dipole
 +  and returns the sLORETA spatial filter output for a dipole on every
 +  location. Dipole locations that are outside the head will return a
 +  NaN value. Adapted from beamformer_lcmv.m
 + 
 +  Use as
 +    [dipout] = beamformer_lcmv(dipin,​ grad, headmodel, dat, cov, varargin)
 +  where
 +    dipin       is the input dipole model
 +    grad        is the gradiometer definition
 +    headmodel ​  is the volume conductor definition
 +    dat         is the data matrix with the ERP or ERF
 +    cov         is the data covariance or cross-spectral density matrix
 +  and
 +    dipout ​     is the resulting dipole model with all details
 + 
 +  The input dipole model consists of
 +    dipin.pos ​  ​positions for dipole, e.g. regular grid, Npositions x 3
 +    dipin.mom ​  ​dipole orientation (optional), 3 x Npositions
 + 
 +  Additional options should be specified in key-value pairs and can be
 +   '​lambda' ​          = regularisation parameter
 +   '​powmethod' ​       = can be '​trace'​ or '​lambda1'​
 +   '​feedback' ​        = give ft_progress indication, can be '​text',​ '​gui'​ or '​none'​ (default)
 +   '​fixedori' ​        = use fixed or free orientation, ​                  can be '​yes'​ or '​no'​
 +   '​projectnoise' ​    = project noise estimate through filter, ​          can be '​yes'​ or '​no'​
 +   '​projectmom' ​      = project the dipole moment timecourse on the direction of maximal power, can be '​yes'​ or '​no'​
 +   '​keepfilter' ​      = remember the beamformer filter, ​                 can be '​yes'​ or '​no'​
 +   '​keepleadfield' ​   = remember the forward computation, ​               can be '​yes'​ or '​no'​
 +   '​keepmom' ​         = remember the estimated dipole moment timeseries, can be '​yes'​ or '​no'​
 +   '​keepcov' ​         = remember the estimated dipole covariance, ​       can be '​yes'​ or '​no'​
 +   '​kurtosis' ​        = compute the kurtosis of the dipole timeseries, ​  can be '​yes'​ or '​no'​
 + 
 +  These options influence the forward computation of the leadfield
 +   '​reducerank' ​      = reduce the leadfield rank, can be '​no'​ or a number (e.g. 2)
 +   '​normalize' ​       = normalize the leadfield
 +   '​normalizeparam' ​  = parameter for depth normalization (default = 0.5)
 + 
 +  If the dipole definition only specifies the dipole location, a rotating
 +  dipole (regional source) is assumed on each location. If a dipole moment
 +  is specified, its orientation will be used and only the strength will
 +  be fitted to the data.
 +</​pre></​html>​