Skeletal Modeling in Rhino Grasshopper—A Confirmed Kinematic Model

Skeletal Modeling in Rhino Grasshopper—A Confirmed Kinematic Model

As musculoskeletal modeling improves, the possibilities of calculating more diverse parameters or performing specific motion analyses increase. However, customization might require a different approach that is not offered by the original software or it requires complex knowledge. Patient lift motion...

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Veröffentlicht in:Machines (Basel) 2023-05, Vol.11 (5), p.556
Hauptverfasser: Senvaitis, Karolis, Daunoravičienė, Kristina
Format: Artikel
Sprache:eng
Schlagworte:
Biomechanics
Chronic illnesses
Comparative analysis
Data correlation
Data processing
Energy consumption
Gait
Grasshoppers
Injuries
Kinematics
Mathematical models
model confirmation
Modelling
Musculoskeletal diseases
Musculoskeletal system
range of motion
skeletal model
Software
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Zusammenfassung:As musculoskeletal modeling improves, the possibilities of calculating more diverse parameters or performing specific motion analyses increase. However, customization might require a different approach that is not offered by the original software or it requires complex knowledge. Patient lift motion was analyzed in Plug-in-Gait (PiG) marker-set-based kinematic model in Rhino Grasshopper for the range of motion calculation of arms. The model was compared with the biomechanics of body (BoB) 10.5 software kinematic model. For the analyzed model, RMSE evaluated as a percentage of the amplitude varied from 9.17% to 32.44%. The data showed actively accurate results except for a few values that were defined as moderately accurate. All data sets showed strong correlation with the reference model. The tested model was confirmed, since it showed significant data correlation with relative accurate values and was evaluated as suitable for further development and analysis before being put to practical use.
ISSN:2075-1702
2075-1702
DOI:10.3390/machines11050556