This study uses inertial sensors to measure ski jumper kinematics and joint dynamics, which was until now only a part of simulation studies. For subsequent calculation of dynamics in the joints, a link-segment model was developed. The model relies on the recursive Newton–Euler inverse dynamics. This approach allowed the calculation of the ground reaction force at take-off. For the model validation, four ski jumpers from the National Nordic center performed a simulated jump in a laboratory environment on a force platform; in total, 20 jumps were recorded. The results fit well to the reference system, presenting small errors in the mean and standard deviation and small root-mean-square errors. The error is under 12% of the reference value. Fo...
INTRODUCTION: In ski jumping, take-off action is the most important factor for ascent force. Jumpers...
This study investigated the explanatory power of a sensor fusion of two complementary methods to exp...
Ski jumping can be divided into three separate phases for biomechanical analysis: inrun, take-off an...
This study uses inertial sensors to measure ski jumper kinematics and joint dynamics, which was unti...
Abstract Dynamics is a central aspect of ski jumping, particularly during take-off and stable flight...
The purpose of the study was to determine the accuracy and the precision of calculated forces based ...
A special take-off simulator for ski-jumping was constructed to enable training of jumping skills. A...
Three-dimensional analysis of the entire sequence in ski jumping is recommended when studying the ki...
We propose a new method, based on inertial sensors, to automatically measure at high frequency the d...
Biomechanics analysis of the ski jump is highly required. Some parameters and their interrelations h...
The present study was designed to examine the factors which may hinder the execution of an effective...
Biomechanics analysis of the ski jump is highly required. Some parameters and their interrelations h...
In this paper, an aerodynamic and biomechanical evaluation of the jump phase in downhill race is pre...
Landing and its preparation are important phases for performance and safety of ski jumpers. A correc...
AbstractWe developed a system for the automatic evaluation of ski jumps on the base of machine learn...
INTRODUCTION: In ski jumping, take-off action is the most important factor for ascent force. Jumpers...
This study investigated the explanatory power of a sensor fusion of two complementary methods to exp...
Ski jumping can be divided into three separate phases for biomechanical analysis: inrun, take-off an...
This study uses inertial sensors to measure ski jumper kinematics and joint dynamics, which was unti...
Abstract Dynamics is a central aspect of ski jumping, particularly during take-off and stable flight...
The purpose of the study was to determine the accuracy and the precision of calculated forces based ...
A special take-off simulator for ski-jumping was constructed to enable training of jumping skills. A...
Three-dimensional analysis of the entire sequence in ski jumping is recommended when studying the ki...
We propose a new method, based on inertial sensors, to automatically measure at high frequency the d...
Biomechanics analysis of the ski jump is highly required. Some parameters and their interrelations h...
The present study was designed to examine the factors which may hinder the execution of an effective...
Biomechanics analysis of the ski jump is highly required. Some parameters and their interrelations h...
In this paper, an aerodynamic and biomechanical evaluation of the jump phase in downhill race is pre...
Landing and its preparation are important phases for performance and safety of ski jumpers. A correc...
AbstractWe developed a system for the automatic evaluation of ski jumps on the base of machine learn...
INTRODUCTION: In ski jumping, take-off action is the most important factor for ascent force. Jumpers...
This study investigated the explanatory power of a sensor fusion of two complementary methods to exp...
Ski jumping can be divided into three separate phases for biomechanical analysis: inrun, take-off an...