Features

• The parallel capabilities of Nirfast have been extended, for both the spectral and BEM toolboxes
• Units have been added to the GUI where appropriate
• Added meshing examples for help in creating meshes
• You can now automatically create rows of sources/detectors in the mesh creation GUI
• Added some test case scripts within Nirfast (see the function test_nirfast)
• When using a pixel basis in reconstruction, the mesh created will not have the poor quality triangles of previous versions of Nirfast
• The log file created in reconstruction now stores the initial guesses
• Mesh optimization has been added to Nirfast, to improve performance in reconstruction

Bug Fixes

• Two different memory leaks were identified and fixed
• A fix in calibration where the offsets were calculated incorrectly if data had been dropped
• A fix for reporting the change in material ID of input surface files when creating a mesh
• A fix for the incorrect magnitude of noise added to data
• When modifying a fluorescence mesh in the GUI, muax will now be updated if muaf is updated with no given muax
• A fix for converting the spectral reconstruction solution to a vtk file

6.1 Updates

• A new link file and data file format have been implemented, see the Inputs page for more info
• The fluorescence toolbox has been updated with performance improvements
• The solvers used in Nirfast have been made more modular. You can now add your own by creating a 'solver_mysolver.m' file in the toolbox/solvers folder. There are examples there for guidance.

6.2 Updates

• Meshing tools have been added to interact with Nirview, making for a continuous workflow from segmentation to meshing.
• A visualization tool, Nirviz, has been added that allows for visualizing 3D solutions from Nirfast seamlessly.