The recent growth and spread of smart sensor technologies make these connected devices suitable for diagnostic and monitoring in different fields. In particular, these sensors are useful in diagnostics for control of diseases or during rehabilitation. They are also extensively used in the monitoring field, both by non-expert and expert users, to monitor health status and progress during a sports activity. For athletes, these devices could be used to control and enhance their performance. This development has led to the realization of miniaturized sensors that are wearable during different sporting activities without interfering with the movements of the athlete. The use of these sensors, during training or racing, opens new frontiers for th...
Biomechanics analysis of the ski jump is highly required. Some parameters and their interrelations h...
In order to gain insight into skiing performance, it is necessary to determine the point where each ...
In this study we present and validate a method to correct velocity and position drift for inertial s...
Although reliable feedback is crucial to improving the performance of competitive alpine skiers, the...
In this paper, we present an analysis to identify a sensor location for an inertial measurement unit...
In skiing it is important to know how the skier accelerates and inclines the skis during the turn to...
In this study we present and validate a method to correct velocity and position drift for inertial s...
Commercial systems utilizing data from inertial measurement units (IMUs) to analyse movement pattern...
The present study investigates if inertial sensors could be used for reconstructing 3D full body mov...
This study investigated the potential of micro-sensors for use in the identification of the main mov...
Three-dimensional analysis of the entire sequence in ski jumping is recommended when studying the ki...
A modular sensor application for measuring athlete performance in skiing sports was developed. Using...
Ski Mountaineering (SkiMo) is a fast growing sport requiring both endurance and technical skills. It...
Fusion Motion Capture (FMC), a wearable motion capture system was developed, and applied to the opt...
The automatic classification of sub-techniques in classical cross-country skiing provides unique pos...
Biomechanics analysis of the ski jump is highly required. Some parameters and their interrelations h...
In order to gain insight into skiing performance, it is necessary to determine the point where each ...
In this study we present and validate a method to correct velocity and position drift for inertial s...
Although reliable feedback is crucial to improving the performance of competitive alpine skiers, the...
In this paper, we present an analysis to identify a sensor location for an inertial measurement unit...
In skiing it is important to know how the skier accelerates and inclines the skis during the turn to...
In this study we present and validate a method to correct velocity and position drift for inertial s...
Commercial systems utilizing data from inertial measurement units (IMUs) to analyse movement pattern...
The present study investigates if inertial sensors could be used for reconstructing 3D full body mov...
This study investigated the potential of micro-sensors for use in the identification of the main mov...
Three-dimensional analysis of the entire sequence in ski jumping is recommended when studying the ki...
A modular sensor application for measuring athlete performance in skiing sports was developed. Using...
Ski Mountaineering (SkiMo) is a fast growing sport requiring both endurance and technical skills. It...
Fusion Motion Capture (FMC), a wearable motion capture system was developed, and applied to the opt...
The automatic classification of sub-techniques in classical cross-country skiing provides unique pos...
Biomechanics analysis of the ski jump is highly required. Some parameters and their interrelations h...
In order to gain insight into skiing performance, it is necessary to determine the point where each ...
In this study we present and validate a method to correct velocity and position drift for inertial s...