The children folders here contain the modeling inverse FEA data for the lumped tissue models. 

006 = male -> Upper arm data was noisy which the paper used, but analysis with outliers removed is also included
008 = female

Final models -> calibrated geometries, input files, and probe displacement data
Other directories defined by: region = number (006/008) + extremity (lower[L] vs upper[U] + arm[A] vs leg[L])

Layout of other directories:
python_test.txt -> file for memory, cpus allocated to inverse FEA script
Py_Script.out -> output of inverse FEA python script
FEBio_Test.txt -> file for memory, cpus allocated to FEBio simulations
[region]_Quad_run1.dat -> changing material parameters over course of inverse FEA
[region]_Quad_run*.log -> FEBio log files of each simulation with the new guess for inverse FEA parameters. First run is literature properties, last run is calibrated properties.
[region]_Quad_run*.feb -.> converged material parameter input files
Geometry.feb -> FEBio geometry file
*_manThick*.xml -> Probe forces and tissue thickness
CMULTIS[number]_[extremity]_US_CT.xml -> probe optotrak data
[region]_Quad_run1.xplt -> FEBio postview file for the literature value parameters. Time point 0 is the initial state of the model. Time points 1.25-2 show prescribed displacement at increments of 25% of the maximum displacement. File size controlled by "PLOT_MUST_POINTS".
[region]_Quad_run*.xplt -> FEBio postview file for the calibrated material parameters. Time point 0 is the initial state of the model. Time points 1.25-2 show prescribed displacement  at increments of 25% of the maximum displacement. File size controlled by "PLOT_MUST_POINTS".