Add to ORKGInverse dynamic analysis using musculoskeletal modeling is a powerful tool, which is utilized in a range of applications to estimate forces in ligaments, muscles, and joints, non-invasively. To date, the conventional input used in this analysis is derived from optical motion capture (OMC) and force plate (FP) systems, which restrict the application of musculoskeletal models to gait laboratories. To address this problem, we propose a musculoskeletal model, capable of estimating the internal forces based solely on inertial motion capture (IMC) input and a ground reaction force and moment (GRF==========
When performing inverse dynamic analysis (IDA) of musculoskeletal models to study human motion, inac...
When investigating the joint kinetics of human locomotion, ground reaction forces are typically meas...
In biomechanics, joint kinetics has an important role in evaluating the mechanical load of the joint...
Inverse dynamic analysis using musculoskeletal modeling is a powerful tool, which is utilized in a r...
Inertial Motion Capture (IMC) systems enable in situ studies of human motion free of the severe cons...
Inertial Motion Capture (IMC) systems enable in situ studies of human motion free of the severe cons...
Ground reaction forces and moments (GRF&M) are important measures used as input in biomechanical...
Ground reaction forces and moments (GRF&M) are important measures used as input in biomechanical...
Ground reaction forces and moments (GRF&M) are important measures used as input in biomechanical ana...
Ground reaction forces and moments (GRF&M) are important measures used as input in biomechanical ana...
Item does not contain fulltextInverse dynamics based simulations on musculoskeletal models is a comm...
Inverse dynamics based simulations on musculoskeletal models is a commonly used method for the analy...
Inverse dynamics based simulations on musculoskeletal models is a commonly used method for the analy...
Inverse dynamics based simulations on musculoskeletal models is a commonly used method for the analy...
forward dynamic neuromusculoskeletal model that can be used to estimate and predict joint moments an...
When performing inverse dynamic analysis (IDA) of musculoskeletal models to study human motion, inac...
When investigating the joint kinetics of human locomotion, ground reaction forces are typically meas...
In biomechanics, joint kinetics has an important role in evaluating the mechanical load of the joint...
Inverse dynamic analysis using musculoskeletal modeling is a powerful tool, which is utilized in a r...
Inertial Motion Capture (IMC) systems enable in situ studies of human motion free of the severe cons...
Inertial Motion Capture (IMC) systems enable in situ studies of human motion free of the severe cons...
Ground reaction forces and moments (GRF&M) are important measures used as input in biomechanical...
Ground reaction forces and moments (GRF&M) are important measures used as input in biomechanical...
Ground reaction forces and moments (GRF&M) are important measures used as input in biomechanical ana...
Ground reaction forces and moments (GRF&M) are important measures used as input in biomechanical ana...
Item does not contain fulltextInverse dynamics based simulations on musculoskeletal models is a comm...
Inverse dynamics based simulations on musculoskeletal models is a commonly used method for the analy...
Inverse dynamics based simulations on musculoskeletal models is a commonly used method for the analy...
Inverse dynamics based simulations on musculoskeletal models is a commonly used method for the analy...
forward dynamic neuromusculoskeletal model that can be used to estimate and predict joint moments an...
When performing inverse dynamic analysis (IDA) of musculoskeletal models to study human motion, inac...
When investigating the joint kinetics of human locomotion, ground reaction forces are typically meas...
In biomechanics, joint kinetics has an important role in evaluating the mechanical load of the joint...