International audienceModeling the interface between the lower limb segments and a socket, orthosis or exoskeleton is crucial to the design, control, and assessment of such devices. The present study aimed to estimate translational and rotational soft tissue stiffness at the thigh and shank during daily living activities performed by six subjects. Smooth orthogonal decomposition (SOD) was used on skin marker trajectories and fluoroscopy-based knee joint kinematics to compute stiffness coefficients during squatting, sitting and rising from a chair, level walking, and stair descending. On average, for all subjects and for all activities, in the anatomical directions observed, the translational and rotational stiffness coefficients for the sha...
Abstract—During natural locomotion, the stiffness of the hu-man knee is modulated continuously and s...
We address the estimation of biomechanical parameters with wearable measurement technologies. In par...
The study was designed to establish a biomechanical assessment platform for the lower limb residuum/...
International audienceModeling the interface between the lower limb segments and a socket, orthosis ...
ISB2021, XXVIII Congress of the International Society of Biomechanics, Stockholm, SUEDE, 25-/07/2021...
International audienceSkin Marker (SM) based motion capture is the most widespread technique used fo...
Biomechanical data characterizing the quasi-stiffness of lower-limb joints during human locomotion i...
Biomechanical data characterizing the quasi-stiffness of lower-limb joints during human locomotion i...
The soft-tissue interface between skin-mounted markers and the underlying bones poses a major limita...
During physiological gait, humans continuously modulate their knee stiffness, depending on the deman...
An important goal in the design of next-generation exoskeletons and limb prostheses is to replicate ...
An important goal in the design of next-generation exoskeletons and limb prostheses is to replicate ...
grantor: University of TorontoSix Degree of Freedom (DOF) Rigid Body modeling techniques c...
Background: Exploring knee joint physiological functional stiffness is crucial for improving the des...
Accurate measurement of knee kinematics during functional activities suffers mainly from soft tissue...
Abstract—During natural locomotion, the stiffness of the hu-man knee is modulated continuously and s...
We address the estimation of biomechanical parameters with wearable measurement technologies. In par...
The study was designed to establish a biomechanical assessment platform for the lower limb residuum/...
International audienceModeling the interface between the lower limb segments and a socket, orthosis ...
ISB2021, XXVIII Congress of the International Society of Biomechanics, Stockholm, SUEDE, 25-/07/2021...
International audienceSkin Marker (SM) based motion capture is the most widespread technique used fo...
Biomechanical data characterizing the quasi-stiffness of lower-limb joints during human locomotion i...
Biomechanical data characterizing the quasi-stiffness of lower-limb joints during human locomotion i...
The soft-tissue interface between skin-mounted markers and the underlying bones poses a major limita...
During physiological gait, humans continuously modulate their knee stiffness, depending on the deman...
An important goal in the design of next-generation exoskeletons and limb prostheses is to replicate ...
An important goal in the design of next-generation exoskeletons and limb prostheses is to replicate ...
grantor: University of TorontoSix Degree of Freedom (DOF) Rigid Body modeling techniques c...
Background: Exploring knee joint physiological functional stiffness is crucial for improving the des...
Accurate measurement of knee kinematics during functional activities suffers mainly from soft tissue...
Abstract—During natural locomotion, the stiffness of the hu-man knee is modulated continuously and s...
We address the estimation of biomechanical parameters with wearable measurement technologies. In par...
The study was designed to establish a biomechanical assessment platform for the lower limb residuum/...