Organizers: Friedl De Groote, Ilse Jonkers, Mariska Wesseling, Sam Van Rossom, Hans Kainz
Sunday, July 2
Agenda
Part 1: Basic Course - Data processing
We will introduce OpenSim and demonstrate a typical data processing workflow in OpenSim (using the GUI) with a hands on example. To complete the hands on exercise, bring a laptop with OpenSim 3.3 installed. Software can be found at http://opensim.stanford.edu/.
09.00-10.45 Introduction to OpenSim’s models and tools
Analysis of drop landing based on experimental data
using the OpenSim GUI (scaling, inverse kinematics, inverse dynamics, static optimization)
11.15-13.00 Joint contact forces during drop landing
using the OpenSim GUI (analyze) and plugin (to generate FE modeling input)
Part 2: Advanced Course – Muscle-driven simulations and optimal design
We will demonstrate how OpenSim can be used to generate forward simulations of motion and for simulation-based design of assistive devices with a hands on example using both the GUI and the API. To complete the hands on exercise, bring a laptop with OpenSim 3.3 and matlab installed. Software and instructions for setting up the OpenSim-matlab interface can be found at http://opensim.stanford.edu/.
14.30-16.15 Evaluate ankle inversion injury risk in a drop landing
using forward simulations in the OpenSim GUI
16.45-18.30 Simulation-based design of orthosis to prevent injuries
using the OpenSim-Matlab interface
Introduction to OpenSim’s models and tools
To complete the tutorial, download data and setup files. For your reference, we also provide the output files.
| View file | ||||
|---|---|---|---|---|
|
Joint contact forces during drop landing
Evaluate ankle inversion injury risk in a drop landing
For this part of the workshop, we refer you to the online tutorial material provided by the OpenSim developers.
If you want to participate in the design competition - part I, send your optimal trajectory of the subtalar angle along with your design choices and a brief motivation about why you consider them to be optimal to ilse.jonkers@kuleuven.be, who will act as the jury.
Simulation-based design of orthosis to prevent injuries
To complete the tutorial, download the example scripts.
If you want to participate in the design competition - part II, send your optimal trajectory of the subtalar angle along with your design choices and a brief motivation about why you consider them to be optimal to ilse.jonkers@kuleuven.be, who will act as the jury.