AbstractMusculoskeletal models are widely used to estimate joint kinematics, intersegmental loads, and muscle and joint contact forces during movement. These estimates can be heavily affected by the soft tissue artefact (STA) when input positional data are obtained using stereophotogrammetry, but this aspect has not yet been fully characterised for muscle and joint forces. This study aims to assess the sensitivity to the STA of three open-source musculoskeletal models, implemented in OpenSim.A baseline dataset of marker trajectories was created for each model from experimental data of one healthy volunteer. Five hundred STA realizations were then statistically generated using a marker-dependent model of the pelvis and lower limb artefact an...
The generation of subject-specific musculoskeletal models of the lower limb has become a feasible ta...
Musculoskeletal models allow non-invasive predictions of non-directly measurable forces exchanged wi...
none4noMain topics: Musculoskeletal modelling; Mathematical simulation in human movement science; Or...
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...
Musculoskeletal models (MSMs), embedding multi-body optimisation algorithms, are used to predict th...
Subject-specific musculoskeletal modeling can be applied to study musculoskeletal disorders, allowin...
<div><p>Subject-specific musculoskeletal modeling can be applied to study musculoskeletal disorders,...
When analysing human movement through stereophotogrammetry, skin-markers are used. Their movement re...
International audienceSkin Marker (SM) based motion capture is the most widespread technique used fo...
Subject-specific musculoskeletal models have become key tools in the clinical decision-making proces...
Inverse dynamics problems are usually solved in the analysis of human gait to obtain reaction forces...
When joint kinematics is analyzed using noninvasive stereophotogrammetry, movements of the skin mark...
Understanding the validity of using musculoskeletal models is critical, making important to assess h...
Understanding the sources of error is critical before models of the musculoskeletal system can be us...
The generation of subject-specific musculoskeletal models of the lower limb has become a feasible ta...
Musculoskeletal models allow non-invasive predictions of non-directly measurable forces exchanged wi...
none4noMain topics: Musculoskeletal modelling; Mathematical simulation in human movement science; Or...
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...
Musculoskeletal models (MSMs), embedding multi-body optimisation algorithms, are used to predict th...
Subject-specific musculoskeletal modeling can be applied to study musculoskeletal disorders, allowin...
<div><p>Subject-specific musculoskeletal modeling can be applied to study musculoskeletal disorders,...
When analysing human movement through stereophotogrammetry, skin-markers are used. Their movement re...
International audienceSkin Marker (SM) based motion capture is the most widespread technique used fo...
Subject-specific musculoskeletal models have become key tools in the clinical decision-making proces...
Inverse dynamics problems are usually solved in the analysis of human gait to obtain reaction forces...
When joint kinematics is analyzed using noninvasive stereophotogrammetry, movements of the skin mark...
Understanding the validity of using musculoskeletal models is critical, making important to assess h...
Understanding the sources of error is critical before models of the musculoskeletal system can be us...
The generation of subject-specific musculoskeletal models of the lower limb has become a feasible ta...
Musculoskeletal models allow non-invasive predictions of non-directly measurable forces exchanged wi...
none4noMain topics: Musculoskeletal modelling; Mathematical simulation in human movement science; Or...