[–out_dir str] [–out_tensor str] [–out_fa str] [–out_ga str] [–out_rgb str] [–out_md str] [–out_ad str]
[–out_rd str] [–out_mode str] [–out_evec str] [–out_eval str] [–nifti_tensor]
input_files bvalues_files bvectors_files mask_files Workflow for tensor reconstruction and for computing DTI metrics. using Weighted Least-Squares. Performs a tensor reconstruction on the files by ‘globing’ input_files Path to the input volumes. This path may contain wildcards to process multiple inputs at once.
bvalues_files Path to the bvalues files. This path may contain wildcards to use multiple bvalues files at once.
bvectors_files Path to the bvectors files. This path may contain wildcards to use multiple bvectors files at once.
mask_files Path to the input masks. This path may contain wildcards to use multiple masks at once. show this help message and exit can be one of the following: ‘WLS’ for weighted least squares ‘LS’ or ‘OLS’ for ordinary least squares ‘NLLS’ for non-linear least-squares ‘RT’ or ‘restore’ or ‘RESTORE’ for RESTORE robust tensor fitting Threshold used to find b0 volumes. Threshold used to check that norm(bvec) = 1 +/- bvecs_tol An estimate of the variance. [5] recommend to use 1.5267 * std(background_noise), where background_noise is estimated from some part of the image known to contain no signal (only noise) b-vectors are unit vectors. List of metrics to save. Possible values: fa, ga, rgb, md, ad, rd, mode, tensor, evec, eval Whether the tensor is saved in the standard Nifti format or in an alternate format that is used by other software (e.g., FSL): a 4-dimensional volume (shape (i, j, k, 6)) with Dxx, Dxy, Dxz, Dyy, Dyz, Dzz on the last dimension. Output directory. (default current directory) Name of the tensors volume to be saved. Per default, this will be saved following the nifti standard: with the tensor elements as Dxx, Dxy, Dyy, Dxz, Dyz, Dzz on the last (5th) dimension of the volume (shape: (i, j, k, 1, 6)). If nifti_tensor is False, this will be saved in an alternate format that is used by other software (e.g., FSL): a 4-dimensional volume (shape (i, j, k, 6)) with Dxx, Dxy, Dxz, Dyy, Dyz, Dzz on the last dimension. Name of the fractional anisotropy volume to be saved. Name of the geodesic anisotropy volume to be saved. Name of the color fa volume to be saved. Name of the mean diffusivity volume to be saved. Name of the axial diffusivity volume to be saved. Name of the radial diffusivity volume to be saved. Name of the mode volume to be saved. Name of the eigenvectors volume to be saved. Name of the eigenvalues to be saved. Garyfallidis, E., M. Brett, B. Amirbekian, A. Rokem, S. Van Der Walt, M. Descoteaux, and I. Nimmo-Smith. Dipy, a library for the analysis of diffusion MRI data. Frontiers in Neuroinformatics, 1-18, 2014.dipy_fit_dti
Usage
input_files
and saves the DTI metrics in a directory specified by out_dir
.Positional Arguments
Optional Arguments
Output Arguments(Optional)
References