It is worth mentioning that Homer3 is compatible with AtlasViewer, which is a MATLAB toolbox that allows to display the fNIRS data processed via Homer on anatomical atlases. Issues can be posted on github by the users, this way developers and users contribute to improving the software together. The Homer community is quite wide, and as it was for Homer2, also for this newer version, the software issues can be discussed on the Homer3 community forum on. The pipelines proposed in these references can be taken also as a starting point to build up new processing streams in Homer3. There are several scientific papers that used and tested processing pipelines using the previous versions of Homer, some of these are reported at the end of this blog. session), subject and group-level analyses processing functions most commonly used to build-up streams for each analysis level plot of run/subject/group results export of subject and group hemodynamic response functions (HRF). snirf files (read here more about snirf format) three levels of analyses, that is run (i.e.
![pipeline toolbox tutorial pipeline toolbox tutorial](https://www.fil.ion.ucl.ac.uk/spm/images/spm-og-xl.jpg)
The main features of Homer3 include: ability to write and run.
PIPELINE TOOLBOX TUTORIAL HOW TO
Homer3 comes with a very intuitive and clear main GUI, which allows new Homer3 users to quickly find out how to process fNIRS data. The main developers of Homer are David Boas, Jay Dubb, Ted Huppert, while several other people also contributed to write specific functions codes. Specifically, Homer3 arises from the development of Photon Migration Imaging toolbox in the early ‘90s, which then became Homer, followed by Homer2. Homer3 is a continuation of the work on the well-known software Homer2.