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s_fe_fit_predator.m
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s_fe_fit_predator.m
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function fe = s_fe_fit_predator(bval,tractographyType)
%
% This function:
% - Initializes a LIFE structure from a candidate connectome
% - Generates an optimized connectome from a cadidate connectome using
% LIFE method
%
% fe = s_fe_fit()
%
% INPUTS: none
% OUTPUTS: fe structure the optimized life structure
%
% Copyright Franco Pestilli (2013) Vistasoft Stanford University
if notDefined('recompute'), recompute=false; end % is true will recumpute the file and overwrite it
% Get the base directory for the data
if ~isempty(bval)
datapath = '/marcovaldo/frk/2t2/predator/';
subjects = {'FP_150dirs_b1000_2000_4000_2iso'};
else
datapath = '/marcovaldo/frk/2t1/predator/';
subjects = {...
%'FP_96dirs_b2000_1p5iso', ...
%'MP_96dirs_b2000_1p5iso', ...
%'HT_96dirs_b2000_1p5iso', ...
%'KW_96dirs_b2000_1p5iso', ...
'JW_96dirs_b2000_1p5iso', ...
%'KK_96dirs_b2000_1p5iso', ...
};
end
if notDefined('tractographyType'), tractographyType = 'tensor';end
for isbj = 1:length(subjects)
% Build the file names for the diffusion data, the anatomical MR, the fiber
% group containing the connectome and the
dwiPath = fullfile(datapath,subjects{isbj},'diffusion_data');
if ~isempty(bval)
dwiFiles = dir(fullfile(dwiPath,sprintf('*%s*.gz',num2str(bval))));
else
dwiFiles = dir(fullfile(dwiPath,sprintf('run*.gz')));
end
dwiFile = fullfile(dwiPath,dwiFiles(1).name);
dwiFileRepeat = fullfile(dwiPath,dwiFiles(2).name);
t1File = fullfile(datapath,subjects{isbj},'anatomy','t1.nii.gz');
% Directory where to save the fe structures
savedir = fullfile(datapath,subjects{isbj},'connectomes');
% Now find all the fiber files that we will analyze
fibersPath = fullfile(datapath,subjects{isbj},'fibers');
if ~isempty(bval)
fgFiles = dir(fullfile(fibersPath,sprintf('*%s*%s*.pdb',num2str(bval),tractographyType)));
else
fgFiles = dir(fullfile(fibersPath,sprintf('*.pdb',tractographyType)));
end
% We build one modelper fiber group, whole brain fiber group
for iFib = 1:length(fgFiles)
% The final connectome and dat astructure will be saved with this name:
[~,feFileName] = fileparts(fgFiles(iFib).name);
feFileName = [feFileName,'_recomputed'];
% Buil a full-file of the fibers and the FE structure
fgFileName = fullfile(fibersPath,fgFiles(iFib).name);
feTempPath = fullfile(savedir,feFileName);
if ~(exist([feTempPath,'.mat'],'file') == 2) && ~recompute
% Intialize a local matlab cluster if the parallel toolbox is available.
feOpenLocalCluster;
% Initialize the Connectome
fe = feConnectomeInit(dwiFile,fgFileName,feFileName,savedir,dwiFileRepeat,t1File);
%feConnectomeSave(fe);
M = feGet(fe,'mfiber');
dSig = feGet(fe,'dsigdemeaned');
%clear fe
% Fit the model and cull. This will take some time...
fit = feFitModel(M,dSig,'bbnnls');
%clear M dSig
% Reload the Fe structure, add the fit and save it back to disk
%disp('Re-loading the Fe structure to save the fit...')
%load([feTempPath,'.mat'])
fe = feSet(fe,'fit',fit);
clear fit
% Save it
feConnectomeSave(fe);
% Close the matlab pool, this will limit the amount of memory build up
matlabpool close
else
disp('Found FE file not re-computing...')
end
end
end
% Exit matlab
exit
return