Musculoskeletal models (MSMs), embedding multi-body optimisation algorithms, are used to predict the joint kinematics and the forces transmitted by internal structures for clinical and research purposes. They are typically driven using skin-mounted marker trajectories measured with stereophotogrammetry, which are affected by the artefact movement of the markers relative to the underlying bone (soft tissue artefact: STA). The effects of the STA on the MSM model outputs, however, are still unclear. The aim of this study is to investigate the sensitivity to the STA of the muscle and joint forces estimated by a MSM selected among those implemented in OpenSim
Optimal bone pose and joint kinematics estimators, that use data provided by stereophotogrammetry, a...
International audienceSkin Marker (SM) based motion capture is the most widespread technique used fo...
While reconstructing skeletal movement using stereophotogrammetry, the relative movement between a s...
Musculoskeletal models (MSMs), embedding multi-body optimisation algorithms, are used to predict th...
Musculoskeletal models are widely used to estimate joint kinematics, intersegmental loads, and muscl...
AbstractMusculoskeletal models are widely used to estimate joint kinematics, intersegmental loads, a...
When analysing human movement through stereophotogrammetry, skin-markers are used. Their movement re...
Subject-specific musculoskeletal modeling can be applied to study musculoskeletal disorders, allowin...
Subject-specific musculoskeletal modeling can be applied to study musculoskeletal disorders, allowin...
Subject-specific musculoskeletal (MSK) computer models can estimate muscle and joint articular force...
23rd Annual Meeting of ESMAC, ROME, ITALIE, 01-/10/2014 - 04/10/2014The movement of skin markers rel...
When joint kinematics is analyzed using noninvasive stereophotogrammetry, movements of the skin mark...
Subject-specific musculoskeletal models have become key tools in the clinical decision-making proces...
When using optoelectronic stereophotogrammetry, skin deformation and displacement causes marker move...
In 3D human movement analysis performed using stereophotogrammetric systems and skin markers, bone p...
Optimal bone pose and joint kinematics estimators, that use data provided by stereophotogrammetry, a...
International audienceSkin Marker (SM) based motion capture is the most widespread technique used fo...
While reconstructing skeletal movement using stereophotogrammetry, the relative movement between a s...
Musculoskeletal models (MSMs), embedding multi-body optimisation algorithms, are used to predict th...
Musculoskeletal models are widely used to estimate joint kinematics, intersegmental loads, and muscl...
AbstractMusculoskeletal models are widely used to estimate joint kinematics, intersegmental loads, a...
When analysing human movement through stereophotogrammetry, skin-markers are used. Their movement re...
Subject-specific musculoskeletal modeling can be applied to study musculoskeletal disorders, allowin...
Subject-specific musculoskeletal modeling can be applied to study musculoskeletal disorders, allowin...
Subject-specific musculoskeletal (MSK) computer models can estimate muscle and joint articular force...
23rd Annual Meeting of ESMAC, ROME, ITALIE, 01-/10/2014 - 04/10/2014The movement of skin markers rel...
When joint kinematics is analyzed using noninvasive stereophotogrammetry, movements of the skin mark...
Subject-specific musculoskeletal models have become key tools in the clinical decision-making proces...
When using optoelectronic stereophotogrammetry, skin deformation and displacement causes marker move...
In 3D human movement analysis performed using stereophotogrammetric systems and skin markers, bone p...
Optimal bone pose and joint kinematics estimators, that use data provided by stereophotogrammetry, a...
International audienceSkin Marker (SM) based motion capture is the most widespread technique used fo...
While reconstructing skeletal movement using stereophotogrammetry, the relative movement between a s...