The triple jump is a demanding athletics event that, after an approach run, consists of three consecutive phases: the hop, the bound, and the jump. During the involved three take-off actions a jumper is exposed to increased risk of injury due to the high impact forces from the ground and powerful muscle/tendon efforts, which are further reflected in the internal loads of the lower limb joints. While external ground reactions can possibly be measured using force platforms, in vivo measurements of the internal loads are practically not feasible. The purpose of the paper is to present the development of an effective formulation for the inverse dynamics simulation of the triple jump, based on the jumper dynamical model and non-invasive kinemati...
The purpose of this paper is to summarise some most recent studies on the biomechanics of the triple...
The purpose of the study was to determine the accuracy and the precision of calculated forces based ...
Computer simulation methods, based on the biomechanical models of human body and its motion apparatu...
This work deals with the dynamics of the human knee during vertical jump exercise. The focus is on t...
The purpose of this research is to investigate muscular ligament and joint contact forces produced d...
This paper established a dynamic model of hop-step-jump techniques in the triple jump. The model ana...
The purpose of this study was to determine the effect of approach run velocity on the optimal phase ...
Introduction: A standard method to determine loads on human joints during sports movements is invers...
The effect of the flight phase on jumping distance was examined using simulation procedures. Most pr...
High jumps are composed of a complex sequence of movements whose single contribution to the whole bo...
A special take-off simulator for ski-jumping was constructed to enable training of jumping skills. A...
This study uses inertial sensors to measure ski jumper kinematics and joint dynamics, which was unti...
A simple mathematical model was presented to simulate the motion of the center of gravity of a human...
The purpose of this study was to examine a calculation method of the leg stiffness using the simplif...
Introduction: The validation of the involved muscular forces for a computer model of the human body,...
The purpose of this paper is to summarise some most recent studies on the biomechanics of the triple...
The purpose of the study was to determine the accuracy and the precision of calculated forces based ...
Computer simulation methods, based on the biomechanical models of human body and its motion apparatu...
This work deals with the dynamics of the human knee during vertical jump exercise. The focus is on t...
The purpose of this research is to investigate muscular ligament and joint contact forces produced d...
This paper established a dynamic model of hop-step-jump techniques in the triple jump. The model ana...
The purpose of this study was to determine the effect of approach run velocity on the optimal phase ...
Introduction: A standard method to determine loads on human joints during sports movements is invers...
The effect of the flight phase on jumping distance was examined using simulation procedures. Most pr...
High jumps are composed of a complex sequence of movements whose single contribution to the whole bo...
A special take-off simulator for ski-jumping was constructed to enable training of jumping skills. A...
This study uses inertial sensors to measure ski jumper kinematics and joint dynamics, which was unti...
A simple mathematical model was presented to simulate the motion of the center of gravity of a human...
The purpose of this study was to examine a calculation method of the leg stiffness using the simplif...
Introduction: The validation of the involved muscular forces for a computer model of the human body,...
The purpose of this paper is to summarise some most recent studies on the biomechanics of the triple...
The purpose of the study was to determine the accuracy and the precision of calculated forces based ...
Computer simulation methods, based on the biomechanical models of human body and its motion apparatu...