In this study we present and validate a method to correct velocity and position drift for inertial sensor-based measurements in the context of alpine ski racing. Magnets were placed at each gate and their position determined using a land surveying method. The time point of gate crossings of the athlete were detected with a magnetometer attached to the athlete’s lower back. A full body inertial sensor setup allowed to track the athlete’s posture, and the magnet positions were used as anchor points to correct position and velocity drift from the integration of the acceleration. Center of mass (CoM) position errors (mean ± standard deviation) were 0.24 m ± 0.09 m and CoM velocity errors were 0.00 m/s ± 0.18 m/s. For extracted turn entrance and...
Alpine ski analysis has always been very challenging, mainly due to the environmental conditions, la...
The purpose of the present study was to evaluate the reconstruction accuracy of the centre of mass d...
In this paper, we present an analysis to identify a sensor location for an inertial measurement unit...
In this study we present and validate a method to correct velocity and position drift for inertial s...
In this study we present and validate a method to correct velocity and position drift for inertial s...
For performance analysis in alpine ski racing, an accurate and precise estimation of the centre of m...
For performance analysis in alpine ski racing, an accurate and precise estimation of the centre of m...
A key point in human movement analysis is measuring the trajectory of a person’s center of mass (CoM...
A key point in human movement analysis is measuring the trajectory of a persons center of mass (CoM)...
For the purpose of gaining a deeper understanding of the relationship between external training load...
For analysing performance in alpine ski racing, an accurate estimation of the skier's centre of mass...
For analysing performance in alpine ski racing, an accurate estimation of the skier’s centre of mass...
In the sport of alpine skiing, knowledge about the centre of mass (CoM) kinematics (i.e. position, v...
The present study investigates if inertial sensors could be used for reconstructing 3D full body mov...
Although reliable feedback is crucial to improving the performance of competitive alpine skiers, the...
Alpine ski analysis has always been very challenging, mainly due to the environmental conditions, la...
The purpose of the present study was to evaluate the reconstruction accuracy of the centre of mass d...
In this paper, we present an analysis to identify a sensor location for an inertial measurement unit...
In this study we present and validate a method to correct velocity and position drift for inertial s...
In this study we present and validate a method to correct velocity and position drift for inertial s...
For performance analysis in alpine ski racing, an accurate and precise estimation of the centre of m...
For performance analysis in alpine ski racing, an accurate and precise estimation of the centre of m...
A key point in human movement analysis is measuring the trajectory of a person’s center of mass (CoM...
A key point in human movement analysis is measuring the trajectory of a persons center of mass (CoM)...
For the purpose of gaining a deeper understanding of the relationship between external training load...
For analysing performance in alpine ski racing, an accurate estimation of the skier's centre of mass...
For analysing performance in alpine ski racing, an accurate estimation of the skier’s centre of mass...
In the sport of alpine skiing, knowledge about the centre of mass (CoM) kinematics (i.e. position, v...
The present study investigates if inertial sensors could be used for reconstructing 3D full body mov...
Although reliable feedback is crucial to improving the performance of competitive alpine skiers, the...
Alpine ski analysis has always been very challenging, mainly due to the environmental conditions, la...
The purpose of the present study was to evaluate the reconstruction accuracy of the centre of mass d...
In this paper, we present an analysis to identify a sensor location for an inertial measurement unit...