Biomechanical effects of passive hip springs during walking - ScienceDirect
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Lower-Limb joint Quasi-Stiffness in the frontal and sagittal planes during walking at different step widths - ScienceDirect
Effect of boot shaft stiffness on stability joint energy and muscular co-contraction during walking on uneven surface - ScienceDirect
Biomechanical effects of passive hip springs during walking - ScienceDirect
Lower-Limb joint Quasi-Stiffness in the frontal and sagittal planes during walking at different step widths - ScienceDirect
Angle profiles at the hip ( A ), knee ( D ), and ankle ( G ), and
The effect of ankle foot orthosis stiffness on the energy cost of walking: A simulation study - ScienceDirect
The walking model. It was constituted by the trunk (not represented)
Design of a passive lower limb exoskeleton for walking assistance with gravity compensation - ScienceDirect
Hip joint power during walking and running. In the shaded interval of
Biomechanical effects of passive hip springs during walking - ScienceDirect
Lower-Limb joint Quasi-Stiffness in the frontal and sagittal planes during walking at different step widths - ScienceDirect
PDF) Biomechanical evaluation of a new passive back support exoskeleton
Biomechanical effects of passive hip springs during walking - ScienceDirect
Improving Walking Ability in People With Neurologic Conditions: A Theoretical Framework for Biomechanics-Driven Exercise Prescription - ScienceDirect
