Human movement analysis generally relies on skin markers monitoring techniques to reconstruct the joint kinematics. However, these acquisition techniques have important limitations including the "soft tissue artefacts" (i.e., the relative movement between the skin markers and the underlying bones). The multi-body optimization method aims to compensate for these artefacts by imposing the degrees of freedom from a predefined kinematic model to markers trajectories. The mechanical linkages typically used for modeling the joints however prevent a satisfactory estimate of the joint kinematics. This thesis addresses the prospects of improvement of the multi-body optimization method for the estimation of joint kinematics of the lower limb through ...
International audienceSkin Marker (SM) based motion capture is the most widespread technique used fo...
The use of multi-body optimisation (MBO) to estimate joint kinematics from stereophotogrammetric dat...
Soft tissue artefact introduces large errors in the joint kinematics estimated from skin markers. Mu...
L'analyse du mouvement humain s'appuie généralement sur des techniques de suivi de marqueurs cutanés...
Multibody kinematics optimization (MKO) aims to reduce soft tissue artefact (STA) and is a key step ...
39ème Congrès de la Société de Biomécanique, VALENCIENNES, FRANCE, 27-/08/2014 - 29/08/2014Motion ca...
Kinematic models of lower limb joints have several potential applications in musculoskeletal modelli...
International audienceTo reduce the impact of the soft tissue artefact (STA) on the estimate of skel...
Soft tissue artefact (STA), i.e. the motion of the skin, fat and muscles gliding on the underlying b...
Multi-body optimization is one of the methods proposed to reduce the errors due to soft-tissue artif...
The financial support of the Universita'Italo-Francese (Call Vinci) and of the Department of Human M...
XIV International Symposium on 3D Analysis of Human Movement, TAIPEI, TAIWAN, PROVINCE DE CHINE, 18-...
The main objective of this work is to overcome the most classical hypotheses used in kinematics (low...
none5siMotion analysis based on skin markers aims at evaluating the joint kinematics but the relativ...
Biomechanics, generally speaking, concerns the application of engineeringprinciples to the study of ...
International audienceSkin Marker (SM) based motion capture is the most widespread technique used fo...
The use of multi-body optimisation (MBO) to estimate joint kinematics from stereophotogrammetric dat...
Soft tissue artefact introduces large errors in the joint kinematics estimated from skin markers. Mu...
L'analyse du mouvement humain s'appuie généralement sur des techniques de suivi de marqueurs cutanés...
Multibody kinematics optimization (MKO) aims to reduce soft tissue artefact (STA) and is a key step ...
39ème Congrès de la Société de Biomécanique, VALENCIENNES, FRANCE, 27-/08/2014 - 29/08/2014Motion ca...
Kinematic models of lower limb joints have several potential applications in musculoskeletal modelli...
International audienceTo reduce the impact of the soft tissue artefact (STA) on the estimate of skel...
Soft tissue artefact (STA), i.e. the motion of the skin, fat and muscles gliding on the underlying b...
Multi-body optimization is one of the methods proposed to reduce the errors due to soft-tissue artif...
The financial support of the Universita'Italo-Francese (Call Vinci) and of the Department of Human M...
XIV International Symposium on 3D Analysis of Human Movement, TAIPEI, TAIWAN, PROVINCE DE CHINE, 18-...
The main objective of this work is to overcome the most classical hypotheses used in kinematics (low...
none5siMotion analysis based on skin markers aims at evaluating the joint kinematics but the relativ...
Biomechanics, generally speaking, concerns the application of engineeringprinciples to the study of ...
International audienceSkin Marker (SM) based motion capture is the most widespread technique used fo...
The use of multi-body optimisation (MBO) to estimate joint kinematics from stereophotogrammetric dat...
Soft tissue artefact introduces large errors in the joint kinematics estimated from skin markers. Mu...