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Join members of the OpenSim Team on Wednesday July 26th for an introduction to OpenSim and new tools for rapidly developing musculoskeletal simulations.

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  1. Open the Anaconda Prompt.
  2. Create a new conda environment for Python 3.10.

    Code Block
    (base) C:\Users\me> conda create -n addbio-processing python=3.10 matplotlib 


  3. Activate the conda environment.

    Code Block
    (base) C:\Users\me> conda activate addbio-processing


  4. If paths to previous OpenSim versions exist on your PYTHONPATH environment variable, remove them and restart the shell.
  5. Install the OpenSim conda package. This installs a version of OpenSim including Moco that is compatible with Python 3.10 and includes NumPy 1.21. 

    Code Block
    (addbio-processing) C:\Users\me> conda install -c opensim-org opensim-moco=4.4.1=py310np121


  6. Launch a Python interpreter from your conda environment.

    Code Block
    (addbio-processing) C:\Users\me> python


  7. Test the OpenSim configuration by checking the timestamp from running 

    Code Block
    >>> import opensim
    >>> opensim.GetVersionAndDate()

    in the Python interpreter; the date should be in June 2023.

OpenSim with Matlab

  1. Download Go to the  OpenSim 4.4.1 softwarerelease page here.
  2. In the dropdown window under "Assets", select the distribution for your platform.
    1. Windows users: download opensim-core-4.4.1-win.zip. 
    2. Mac users: download opensim-core-4.4.1-mac.zip. 
  3. Install OpenSim to a location of your choice; perhaps C:\opensim-core-4.4.1 (on Windows).
  4. If you use Windows, edit your PATH environment variable to include OpenSim’s bin directory (e.g., C:\opensim-core-4.4.1\bin). See here for instructions. Make sure to remove any previous OpenSim installations from your PATH.
  5. Configure OpenSim with Matlab by starting Matlab and running configureOpenSim.m, located at C:\opensim-core-4.4.1\Resources\Code\Matlab.

  6. After the script completes, restart Matlab and test the configuration by checking the timestamp from running 

    Code Block
    >> org.opensim.modeling.opensimCommon.GetVersionAndDate()

     in the Matlab command window; the date should be in July 2023.

  7. Test that the visualizer is working by running the following:

    Code Block
    >> cd 'C:\opensim-core-4.4.1\Resources\Code\Matlab\Moco'
    >> exampleSlidingMass

    You should see a visualizer window appear with a sliding mass animation. Hit ESC twice to close the window.

  8. Note for OpenSim 3.3 users: You cannot concurrently use OpenSim 3.3 and 4.4 in Matlab; to switch versions you must re-run configureOpenSim.m and edit your PATH environment variable.

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Visit the Moco website here.

Slides

TODO

Publications

Uhlrich SD, Falisse A, Kidzinski L, Muccini J, Ko M, Chaudhari AS, Hicks JL, Delp SL (2022) OpenCap: 3D human movement dynamics from smartphone videos. bioRxiv. https://doi.org/10.1101/2022.07.07.499061

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name2022.07.07.499061v1.full.pdf
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Werling K, Bianco NA, Raitor M, Stingel J, Hicks JL, Collins SH, Delp SL, Liu CK (2023) AddBiomechanics: Automating model scaling, inverse kinematics, and inverse dynamics from human motion data through sequential optimization. bioRxiv. https://doi.org/10.1101/2023.06.15.545116

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name2023.06.15.545116v1.full.pdf
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Dembia CL, Bianco NA, Falisse A, Hicks JL, Delp SL (2020) OpenSim Moco: Musculoskeletal optimal control. PLoS Comput Biol 16(12): e1008493. https://doi.org/10.1371/journal.pcbi.1008493

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namejournal.pcbi.1008493 (2).pdf
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