Lecture by Professor Scott Delp of Stanford University. Learn about OpenSim, a powerful and freely available tool for creating muscle-driven simulations. OpenSim is a musculoskeletal simulator that simulates neural control, biological joints, muscle-tendon dynamics, energetic cost, assistive devices, and more. Explore the simulation playground with some examples from our research or try it out on your own.
This lecture covers part of "Biomechanics of Movement Chapter 10: Muscle-Driven Simulation"
Lecture 10.1: Muscle-Driven Simulations: What are They and How Do We Use Them [ Ссылка ]
Lecture 10.2: Verification and Validation: Is My Model Good Enough? [ Ссылка ]
Lecture 10.3: Defining your Research Question [ Ссылка ]
Lecture 10.4: Understanding and Evaluating your Methods [ Ссылка ]
Lecture 10.5: Assessing Sensitivity to Build Confidence in your Results [ Ссылка ]
Lecture 10.6: Having Impact by Making Real-World Predictions and Sharing Your Work [ Ссылка ]
Lecture 10.7: OpenSim: A Powerful Tool for Creating Muscle-Driven Simulation [ Ссылка ]
Learn more at [ Ссылка ]
Explore all videos on the Biomechanics of Movement YouTube Channel: [ Ссылка ]
Additional resources:
OpenSim: [ Ссылка ]
Acknowledgments:
Clio Delp, Sebastian Kleppe, University of Ottawa (Video Production)
Marissa Lee, Melissa Boswell, Hannah O'Day (Content Review)
The Stanford Human Performance Lab especially Scott Uhlrich & Julie Muccini (Demos)
The University of Ottawa and Neuromuscular Biomechanics Lab of Stanford University
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