The overground speed is a key component of running analysis. Today, most speed estimation wearable systems are based on GNSS technology. However, these devices can suffer from sparse communication with the satellites and have a high-power consumption. In this study, we propose three different approaches to estimate the overground speed in running based on foot-worn inertial sensors and compare the results against a reference GNSS system. First, a method is proposed by direct strapdown integration of the foot acceleration. Second, a feature-based linear model and finally a personalized online-model based on the recursive least squares' method were devised. We also evaluated the performance differences between two sets of features; one automa...
This study aimed to evaluate the concurrent validity of two different inertial measurement units fo...
This study aimed to introduce and validate a new method to estimate and correct the orientation drif...
Both GPS and inertial measurement units (IMUs) have been extensively used in biomechanical studies. ...
Gait speed is an important parameter to characterize people's daily mobility. For real-world speed m...
Running has a positive impact on human health and is an accessible sport for most people. There is h...
The number of validation studies of commercially available foot pods that provide estimates of runni...
The number of validation studies of commercially available foot pods that provide estimates of runni...
The aim of this study was to assess the performance of different kinematic features measured by foot...
Power-Force-Velocity profile obtained during a sprint test is crucial for designing personalized tra...
Walking/gait speed is a key measure for daily mobility characterization. To date, various studies ha...
In this paper we implemented machine learning (ML) and strap-down integration (SDI) methods and anal...
Running gait assessment for shoe type recommendation to avoid injury often takes place within commer...
AbstractThe continuous sensing of kinematics provides an opportunity to monitor changes in sporting ...
Current developments in inertial sensor technology could enable the measurement of running gait outs...
This study aimed to introduce and validate a new method to estimate and correct the orientation drif...
This study aimed to evaluate the concurrent validity of two different inertial measurement units fo...
This study aimed to introduce and validate a new method to estimate and correct the orientation drif...
Both GPS and inertial measurement units (IMUs) have been extensively used in biomechanical studies. ...
Gait speed is an important parameter to characterize people's daily mobility. For real-world speed m...
Running has a positive impact on human health and is an accessible sport for most people. There is h...
The number of validation studies of commercially available foot pods that provide estimates of runni...
The number of validation studies of commercially available foot pods that provide estimates of runni...
The aim of this study was to assess the performance of different kinematic features measured by foot...
Power-Force-Velocity profile obtained during a sprint test is crucial for designing personalized tra...
Walking/gait speed is a key measure for daily mobility characterization. To date, various studies ha...
In this paper we implemented machine learning (ML) and strap-down integration (SDI) methods and anal...
Running gait assessment for shoe type recommendation to avoid injury often takes place within commer...
AbstractThe continuous sensing of kinematics provides an opportunity to monitor changes in sporting ...
Current developments in inertial sensor technology could enable the measurement of running gait outs...
This study aimed to introduce and validate a new method to estimate and correct the orientation drif...
This study aimed to evaluate the concurrent validity of two different inertial measurement units fo...
This study aimed to introduce and validate a new method to estimate and correct the orientation drif...
Both GPS and inertial measurement units (IMUs) have been extensively used in biomechanical studies. ...