When stereophotogrammetry and skin-markers are used, bone-pose estimation is jeopardised by the soft tissue artefact (STA). At marker-cluster level, this can be represented using a modal series of rigid (RT; translation and rotation) and non-rigid (NRT; homothety and scaling) geometrical transformations. The NRT has been found to be smaller than the RT and claimed to have a limited impact on bone-pose estimation. This study aims to investigate this matter and comparatively assessing the propagation of both STA components to bone-pose estimate, using different numbers of markers. Twelve skin-markers distributed over the anterior aspect of a thigh were considered and STA time functions were generated for each of them, as plausibly occurs duri...
Segment poses and joint kinematics estimated from skin markers are highly affected by soft tissue ar...
Lors de l'analyse 3D du mouvement humain basée sur des marqueurs cutanés, la position des os ne peut...
XIII International Symposium on 3D Analysis of Human Movement, LAUSANNE, SUISSE, 14-/07/2014 - 17/07...
XXV Congress of the International Society of Biomechanics, GLASGOW, ROYAUME-UNI, 12-/07/2015 - 16/07...
While reconstructing skeletal movement using stereophotogrammetry, the relative movement between a s...
In 3D human movement analysis performed using stereophotogrammetric systems and skin markers, bone p...
The estimation of joint kinematics from skin markers is hindered by the soft tissue artefact (STA), ...
When joint kinematics is analyzed using noninvasive stereophotogrammetry, movements of the skin mark...
39ème Congrès de la Société de Biomécanique, VALENCIENNES, FRANCE, 27-/08/2014 - 29/08/2014Soft tiss...
Soft tissue artifact (STA) is the main source of error in kinematic estimation of human movements ba...
In 3D human movement analysis performed using stereophotogrammetry and skin markers, bone pose can b...
Optimal bone pose and joint kinematics estimators, that use data provided by stereophotogrammetry, a...
When analysing human movement through stereophotogrammetry, skin-markers are used. Their movement re...
When using optoelectronic stereophotogrammetry, skin deformation and displacement causes marker move...
Abstract Background The assessment of the accuracy of the pose estimation of human bones and consequ...
Segment poses and joint kinematics estimated from skin markers are highly affected by soft tissue ar...
Lors de l'analyse 3D du mouvement humain basée sur des marqueurs cutanés, la position des os ne peut...
XIII International Symposium on 3D Analysis of Human Movement, LAUSANNE, SUISSE, 14-/07/2014 - 17/07...
XXV Congress of the International Society of Biomechanics, GLASGOW, ROYAUME-UNI, 12-/07/2015 - 16/07...
While reconstructing skeletal movement using stereophotogrammetry, the relative movement between a s...
In 3D human movement analysis performed using stereophotogrammetric systems and skin markers, bone p...
The estimation of joint kinematics from skin markers is hindered by the soft tissue artefact (STA), ...
When joint kinematics is analyzed using noninvasive stereophotogrammetry, movements of the skin mark...
39ème Congrès de la Société de Biomécanique, VALENCIENNES, FRANCE, 27-/08/2014 - 29/08/2014Soft tiss...
Soft tissue artifact (STA) is the main source of error in kinematic estimation of human movements ba...
In 3D human movement analysis performed using stereophotogrammetry and skin markers, bone pose can b...
Optimal bone pose and joint kinematics estimators, that use data provided by stereophotogrammetry, a...
When analysing human movement through stereophotogrammetry, skin-markers are used. Their movement re...
When using optoelectronic stereophotogrammetry, skin deformation and displacement causes marker move...
Abstract Background The assessment of the accuracy of the pose estimation of human bones and consequ...
Segment poses and joint kinematics estimated from skin markers are highly affected by soft tissue ar...
Lors de l'analyse 3D du mouvement humain basée sur des marqueurs cutanés, la position des os ne peut...
XIII International Symposium on 3D Analysis of Human Movement, LAUSANNE, SUISSE, 14-/07/2014 - 17/07...