Understanding stiffness of the lower extremities during human movement may provide important information for developing more effective training methods during sports activities. It has been reported that leg stiffness (Kleg) during submaximal hopping depends primarily on ankle stiffness (Farley & Morgenroth, 1999), but the way stiffness is regulated in maximal hopping is unknown. The aim of the present study was to investigate a major determinant of the leg stiffness during maximal hopping
Dept. of Biomedical Engineering/석사The purpose of the study was to determine leg stiffness and low ex...
Mechanical stiffness (vertical, leg and joint stiffness) can be calculated during normal human movem...
Stiffness describes the resistance of a body to deformation. In regards to athletic performance, a s...
The purpose of this study was to understand how humans regulate their 'leg stiffness' in hopping, an...
Bouncing gait, specifically hopping, running, and jumping, involves a complex combination of legs, j...
In a spring-mass model (Figure 1-A), the stiffness of the leg spring (leg stiffness; Kleg) is though...
The spring-like behavior of the body during bipedal hopping and running has been modeled as a simple...
It has been supposed that leg stiffness affect repeated jump performance, such as hopping. Previous ...
International audienceThe objective of this study was to examine the contribution of intrinsic ankle...
Copyright: © 2019 Diggin et al. This is an open access article distributed under the terms of the Cr...
INTRODUCTION: In normal daily activity as in sports, humans adjust their physical behavior depending...
The purpose of this study was to investigate the inter-day reliability of a common method used to me...
The purpose of this study was to assess the stiffness relationship between basic jumping tasks and ...
The 'stiffness' concept originates from Hooke's law which states that the force required to deform a...
Stiffness of the leg spring quantifies the relationship between the amount of leg flexion and the ex...
Dept. of Biomedical Engineering/석사The purpose of the study was to determine leg stiffness and low ex...
Mechanical stiffness (vertical, leg and joint stiffness) can be calculated during normal human movem...
Stiffness describes the resistance of a body to deformation. In regards to athletic performance, a s...
The purpose of this study was to understand how humans regulate their 'leg stiffness' in hopping, an...
Bouncing gait, specifically hopping, running, and jumping, involves a complex combination of legs, j...
In a spring-mass model (Figure 1-A), the stiffness of the leg spring (leg stiffness; Kleg) is though...
The spring-like behavior of the body during bipedal hopping and running has been modeled as a simple...
It has been supposed that leg stiffness affect repeated jump performance, such as hopping. Previous ...
International audienceThe objective of this study was to examine the contribution of intrinsic ankle...
Copyright: © 2019 Diggin et al. This is an open access article distributed under the terms of the Cr...
INTRODUCTION: In normal daily activity as in sports, humans adjust their physical behavior depending...
The purpose of this study was to investigate the inter-day reliability of a common method used to me...
The purpose of this study was to assess the stiffness relationship between basic jumping tasks and ...
The 'stiffness' concept originates from Hooke's law which states that the force required to deform a...
Stiffness of the leg spring quantifies the relationship between the amount of leg flexion and the ex...
Dept. of Biomedical Engineering/석사The purpose of the study was to determine leg stiffness and low ex...
Mechanical stiffness (vertical, leg and joint stiffness) can be calculated during normal human movem...
Stiffness describes the resistance of a body to deformation. In regards to athletic performance, a s...