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ft_channelnormalise.m
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ft_channelnormalise.m
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function [dataout] = ft_channelnormalise(cfg, data)
% FT_CHANNELNORMALISE shifts and scales all channels of the the input data.
% The default behavior is to subtract each channel's mean, and scale to a
% standard deviation of 1, for each channel individually.
%
% Use as
% [dataout] = ft_channelnormalise(cfg, data)
%
% The configuration can contain
% cfg.channel = 'all', or a selection of channels
% cfg.trials = 'all' or a selection given as a 1xN vector (default = 'all')
% cfg.demean = 'yes' or 'no' (or boolean value) (default = 'yes')
% cfg.scale = scalar value used for scaling (default = 1)
% cfg.method = 'perchannel', or 'acrosschannel', computes the
% standard deviation per channel, or across all channels.
% The latter method leads to the same scaling across
% channels and preserves topographical distributions
%
% To facilitate data-handling and distributed computing you can use
% cfg.inputfile = ...
% cfg.outputfile = ...
% If you specify one of these (or both) the input data will be read from a *.mat
% file on disk and/or the output data will be written to a *.mat file. These mat
% files should contain only a single variable, corresponding with the
% input/output structure.
%
% See also FT_COMPONENTANALYSIS, FT_FREQBASELINE, FT_TIMELOCKBASELINE
%
% Copyright (C) 2010, Jan-Mathijs Schoffelen
% This file is part of FieldTrip, see http://www.fieldtriptoolbox.org
% for the documentation and details.
%
% FieldTrip is free software: you can redistribute it and/or modify
% it under the terms of the GNU General Public License as published by
% the Free Software Foundation, either version 3 of the License, or
% (at your option) any later version.
%
% FieldTrip is distributed in the hope that it will be useful,
% but WITHOUT ANY WARRANTY; without even the implied warranty of
% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
% GNU General Public License for more details.
%
% You should have received a copy of the GNU General Public License
% along with FieldTrip. If not, see <http://www.gnu.org/licenses/>.
%
% $Id$
% these are used by the ft_preamble/ft_postamble function and scripts
ft_revision = '$Id$';
ft_nargin = nargin;
ft_nargout = nargout;
% do the general setup of the function
ft_defaults
ft_preamble init
ft_preamble debug
ft_preamble loadvar data
ft_preamble provenance data
% the ft_abort variable is set to true or false in ft_preamble_init
if ft_abort
return
end
% store the original datatype
dtype = ft_datatype(data);
% check if the input data is valid for this function
data = ft_checkdata(data, 'datatype', 'raw', 'feedback', 'yes');
% check if the input cfg is valid for this function
cfg = ft_checkconfig(cfg, 'forbidden', {'channels', 'trial'}); % prevent accidental typos, see issue 1729
% set the defaults
cfg.channel = ft_getopt(cfg, 'channel', 'all');
cfg.trials = ft_getopt(cfg, 'trials', 'all', 1);
cfg.scale = ft_getopt(cfg, 'scale', 1);
cfg.demean = ft_getopt(cfg, 'demean', 'yes');
cfg.method = ft_getopt(cfg, 'method', 'perchannel'); % or acrosschannel
if ~strcmp(cfg.channel, 'all') || ~strcmp(cfg.trials, 'all')
% select channels and trials of interest
tmpcfg = keepfields(cfg, {'trials', 'channel', 'tolerance', 'showcallinfo', 'trackcallinfo', 'trackusage', 'trackdatainfo', 'trackmeminfo', 'tracktimeinfo', 'checksize'});
data = ft_selectdata(tmpcfg, data);
% restore the provenance information
[cfg, data] = rollback_provenance(cfg, data);
end
% initialise some variables
nchan = numel(data.label);
ntrl = numel(data.trial);
datsum = zeros(nchan,1);
datssq = zeros(nchan,1);
% create output data, omitting sensor information
% FIXME this can be kept, provided the scaling is built in appropriately
dataout = [];
dataout.label = data.label;
dataout.trial = cell(1,ntrl);
dataout.time = data.time;
% some fields from the input should be copied over in the output
copyfield = {'fsample', 'sampleinfo', 'trialinfo'};
for i=1:length(copyfield)
if isfield(data, copyfield{i})
dataout.(copyfield{i}) = data.(copyfield{i});
end
end
% compute the sum and sum-of-squares
n = zeros(numel(data.label), numel(data.trial));
for k = 1:ntrl
n(:,k) = sum(~isnan(data.trial{k}),2);
datsum = datsum + nansum(data.trial{k},2);
datssq = datssq + nansum(data.trial{k}.^2,2);
end
% compute the mean always per channel
datmean = datsum./nansum(n, 2);
if strcmp(cfg.method, 'perchannel')
% keep the intermediate sum and sum-of-squares as they are
elseif strcmp(cfg.method, 'acrosschannel')
% update the intermediate sum and sum-of-squares in order to compute std across channels
datsum(:) = nansum(datsum);
datssq(:) = nansum(datssq);
n = repmat(nansum(n, 1), size(n, 1), 1);
else
ft_error('unsupported method "%s"', cfg.method);
end
% this is a quick way to compute the std from the sum and sum-of-squared values
datstd = sqrt( (datssq - (datsum.^2)./nansum(n, 2))./nansum(n, 2));
% keep mean and std in output cfg
if istrue(cfg.demean)
cfg.mu = datmean;
else
cfg.mu = [];
end
cfg.sigma = datstd;
% demean and normalise
for k = 1:ntrl
onesvec = ones(1,size(data.trial{k},2));
if istrue(cfg.demean)
dataout.trial{k} = cfg.scale * (data.trial{k}-datmean(:,onesvec))./datstd(:,onesvec);
else
dataout.trial{k} = cfg.scale * data.trial{k}./datstd(:,onesvec);
end
end
% convert back to input type if necessary
switch dtype
case 'timelock'
dataout = ft_checkdata(dataout, 'datatype', 'timelock');
otherwise
% keep the output as it is
end
% do the general cleanup and bookkeeping at the end of the function
ft_postamble debug
ft_postamble previous data
ft_postamble provenance dataout
ft_postamble history dataout
ft_postamble savevar dataout