diff --git a/DESCRIPTION b/DESCRIPTION index 420c1b0..15fb845 100644 --- a/DESCRIPTION +++ b/DESCRIPTION @@ -1,10 +1,10 @@ Package: freesurferformats Type: Package Title: Read and Write 'FreeSurfer' Neuroimaging File Formats -Version: 0.1.9 +Version: 0.1.10 Authors@R: person("Tim", "Schäfer", role = c("aut", "cre"), email = "ts+code@rcmd.org", comment = c(ORCID = "0000-0002-3683-8070")) Maintainer: Tim Schäfer -Description: Provides functions to read and write data from neuroimaging files in 'FreeSurfer' binary formats. This includes the following file formats: 1) MGH/MGZ format files, which can contain multi-dimensional images or other data. Typically they contain time-series of three-dimensional brain scans acquired by magnetic resonance imaging (MRI). They can also contain vertex-wise measures of surface morphometry data. The MGH format is named after the Massachusetts General Hospital, and the MGZ format is a compressed version of the same format. 2) 'FreeSurfer' morphometry data files in binary 'curv' format. These contain vertex-wise surface measures, i.e., one scalar value for each vertex of a brain surface mesh. These are typically values like the cortical thickness or brain surface area at each vertex. 3) Annotation file format. This contains a brain surface parcellation derived from a cortical atlas. 4) Surface file format. Contains a brain surface mesh, given by a list of vertices and a list of faces. +Description: Provides functions to read and write data from neuroimaging files in 'FreeSurfer' binary formats. This includes, but is not limited to, the following file formats: 1) MGH/MGZ format files, which can contain multi-dimensional images or other data. Typically they contain time-series of three-dimensional brain scans acquired by magnetic resonance imaging (MRI). They can also contain vertex-wise measures of surface morphometry data. The MGH format is named after the Massachusetts General Hospital, and the MGZ format is a compressed version of the same format. 2) 'FreeSurfer' morphometry data files in binary 'curv' format. These contain vertex-wise surface measures, i.e., one scalar value for each vertex of a brain surface mesh. These are typically values like the cortical thickness or brain surface area at each vertex. 3) Annotation file format. This contains a brain surface parcellation derived from a cortical atlas. 4) Surface file format. Contains a brain surface mesh, given by a list of vertices and a list of faces. License: MIT + file LICENSE Encoding: UTF-8 LazyData: true