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Full-Text Articles in Engineering
Development Of An Opensim Shoulder Model For Manual Wheelchair Users With Tetraplegia, B. Odle, G. Forrest, T. Dyson-Hudson, Jeffrey A. Reinbolt
Development Of An Opensim Shoulder Model For Manual Wheelchair Users With Tetraplegia, B. Odle, G. Forrest, T. Dyson-Hudson, Jeffrey A. Reinbolt
Jeffrey A. Reinbolt
No abstract provided.
A Platform For Dynamic Simulation And Control Of Human Movement, M. B. Mansouri, Jeffrey A. Reinbolt
A Platform For Dynamic Simulation And Control Of Human Movement, M. B. Mansouri, Jeffrey A. Reinbolt
Jeffrey A. Reinbolt
No abstract provided.
Tendon Transfer Of Biarticular Muscles Reduces Balance Recovery: A Computer Simulation Study, A. E. Clark, A. Seth, Jeffrey A. Reinbolt
Tendon Transfer Of Biarticular Muscles Reduces Balance Recovery: A Computer Simulation Study, A. E. Clark, A. Seth, Jeffrey A. Reinbolt
Jeffrey A. Reinbolt
No abstract provided.
Weakened Trunk Muscles Influence Knee Valgus Moments Associated With Acl Injury, K. D. Morgan, C. J. Donnelly, Jeffrey A. Reinbolt
Weakened Trunk Muscles Influence Knee Valgus Moments Associated With Acl Injury, K. D. Morgan, C. J. Donnelly, Jeffrey A. Reinbolt
Jeffrey A. Reinbolt
No abstract provided.
Muscle Forces During Single-Leg Jump Landing, K. D. Morgan, C. J. Donnelly, Jeffrey A. Reinbolt
Muscle Forces During Single-Leg Jump Landing, K. D. Morgan, C. J. Donnelly, Jeffrey A. Reinbolt
Jeffrey A. Reinbolt
No abstract provided.
Crouched Posture Maximizes Ground Reaction Forces Generated By Muscles, H. X. Hoang, Jeffrey A. Reinbolt
Crouched Posture Maximizes Ground Reaction Forces Generated By Muscles, H. X. Hoang, Jeffrey A. Reinbolt
Jeffrey A. Reinbolt
No abstract provided.
Optimizing Whole-Body Kinematics To Minimize Valgus Knee Loading During Single-Leg Landing: Implications For Acl Injury Risk, C. J. Donnelly, D. G. Lloyd, B. C. Elliott, Jeffrey A. Reinbolt
Optimizing Whole-Body Kinematics To Minimize Valgus Knee Loading During Single-Leg Landing: Implications For Acl Injury Risk, C. J. Donnelly, D. G. Lloyd, B. C. Elliott, Jeffrey A. Reinbolt
Jeffrey A. Reinbolt
No abstract provided.
Biarticular Muscles Influence Postural Responses: Implications For Treatment Of Stiff-Knee Gait, A. E. Clark, A. Seth, Jeffrey A. Reinbolt
Biarticular Muscles Influence Postural Responses: Implications For Treatment Of Stiff-Knee Gait, A. E. Clark, A. Seth, Jeffrey A. Reinbolt
Jeffrey A. Reinbolt
No abstract provided.
Simulation Of Human Movement Based On Opensim, Jeffrey A. Reinbolt, A. Seth, S. L. Delp
Simulation Of Human Movement Based On Opensim, Jeffrey A. Reinbolt, A. Seth, S. L. Delp
Jeffrey A. Reinbolt
No abstract provided.
A Musculoskeletal Modeling And Simulation Framework For In Silico Investigations And Exchange, A. Seth, M. Sherman, Jeffrey A. Reinbolt, S. L. Delp
A Musculoskeletal Modeling And Simulation Framework For In Silico Investigations And Exchange, A. Seth, M. Sherman, Jeffrey A. Reinbolt, S. L. Delp
Jeffrey A. Reinbolt
No abstract provided.
Simulation Of Human Movement: Applications Using Opensim, Jeffrey A. Reinbolt, A. Seth, S. L. Delp
Simulation Of Human Movement: Applications Using Opensim, Jeffrey A. Reinbolt, A. Seth, S. L. Delp
Jeffrey A. Reinbolt
Computer simulations are playing an increasingly important role in solving complex engineering problems, and have the potential to revolutionize experimentally-based medical decision making and treatment design. Experiments alone provide important but limited understanding of movement dynamics. Although we can measure some quantities, such as muscle activities and ground reaction forces, responsible for a movement, simulations complement these measurements with estimates of other important variables, such as muscle and joint forces. Simulations also allow us to establish cause-and-effect relationships giving insights into muscle function. Perhaps the most exciting feature of simulations is the potential to perform “what if” studies to test …
Opensim: A Musculoskeletal Modeling And Simulation Framework For In Silico Investigations And Exchange, A. Seth, M. A. Sherman, Jeffrey A. Reinbolt, S. L. Delp
Opensim: A Musculoskeletal Modeling And Simulation Framework For In Silico Investigations And Exchange, A. Seth, M. A. Sherman, Jeffrey A. Reinbolt, S. L. Delp
Jeffrey A. Reinbolt
Movement science is driven by observation, but observation alone cannot elucidate principles of human and animal movement. Biomechanical modeling and computer simulation complement observations and inform experimental design. Biological models are complex and specialized software is required for building, validating, and studying them. Furthermore, common access is needed so that investigators can contribute models to a broader community and leverage past work. We are developing OpenSim, a freely available musculoskeletal modeling and simulation application and libraries specialized for these purposes, by providing: musculoskeletal modeling elements, such as biomechanical joints, muscle actuators, ligament forces, compliant contact, and controllers; and tools for …