<p>The experimental values are shown by circles, and the predictions of the general-form model by diamonds with average error of <i>(14%)</i>, and the stature-based models by squares with average error of <i>(9%)</i> for the optimal gait speed.</p
Abstract—During natural locomotion, the stiffness of the hu-man knee is modulated continuously and s...
Quasi-stiffness characterizes the dynamics of a joint in specific sections of stance-phase and is us...
The human knee joint exhibits a spring-type behavior during the stance phase of walking at the prefe...
<p>Stature-Based Models to Predict the Quasi-Stiffness of the Knee Joint in Stance for Normal Walkin...
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...
<p>Right: The hip quasi-stiffness in the flexion stage of the resilient loading phase of the gait. T...
<p>Stature-Based Models to Predict the Quasi-Stiffness and Work of the Ankle Joint for Walking at th...
<p>The circles indicate the experimental values and the diamonds indicate the predictions of the gen...
<p>General-Form Models to Predict the Quasi-Stiffness of the Knee Joint in Stance for Normal Walking...
<p>The experimental values are shown by circles, the predictions of the general-form models by diamo...
<p>W: Weight (kg), H: Height (m), V: Gait Speed (m/s), and and : Joint excursions (deg).</p
Biomechanical data characterizing the quasi-stiffness of lower-limb joints during human locomotion i...
<p>: Body weight (kg), and : Body height (m),</p><p> and : Minimum and maximum gait speed (m/s).</p>...
<p>The force vs. displacement relationship shows multiple regions of effective stiffnesses, defined ...
Abstract—During natural locomotion, the stiffness of the hu-man knee is modulated continuously and s...
Quasi-stiffness characterizes the dynamics of a joint in specific sections of stance-phase and is us...
The human knee joint exhibits a spring-type behavior during the stance phase of walking at the prefe...
<p>Stature-Based Models to Predict the Quasi-Stiffness of the Knee Joint in Stance for Normal Walkin...
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...
<p>Right: The hip quasi-stiffness in the flexion stage of the resilient loading phase of the gait. T...
<p>Stature-Based Models to Predict the Quasi-Stiffness and Work of the Ankle Joint for Walking at th...
<p>The circles indicate the experimental values and the diamonds indicate the predictions of the gen...
<p>General-Form Models to Predict the Quasi-Stiffness of the Knee Joint in Stance for Normal Walking...
<p>The experimental values are shown by circles, the predictions of the general-form models by diamo...
<p>W: Weight (kg), H: Height (m), V: Gait Speed (m/s), and and : Joint excursions (deg).</p
Biomechanical data characterizing the quasi-stiffness of lower-limb joints during human locomotion i...
<p>: Body weight (kg), and : Body height (m),</p><p> and : Minimum and maximum gait speed (m/s).</p>...
<p>The force vs. displacement relationship shows multiple regions of effective stiffnesses, defined ...
Abstract—During natural locomotion, the stiffness of the hu-man knee is modulated continuously and s...
Quasi-stiffness characterizes the dynamics of a joint in specific sections of stance-phase and is us...
The human knee joint exhibits a spring-type behavior during the stance phase of walking at the prefe...
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