Systems based on inertial sensors are increasingly used in motion analysis due to their low cost, portability and wearability. However, since accuracy is crucial in clinical gait analysis, it is important to assess it in new systems. The aim of this study is to compare the performances of a magnetic and inertial sensors system (MIMUs) to a gold standard, the electromechanical system STEP32. Results shows that spatio-temporal parameters are accurately estimated by the MIMUs system. Joint kinematics does not reach the accuracy of the STEP32 system. In fact, although MIMUs measurements on the knee and hip joints are clinically acceptable, they are not yet reliable for the ankle joint
Wearable sensors technology based on inertial measurement units (IMUs) is leading the transition fro...
Gait analysis is commonly performed in standardized environments, but there is a growing interest in...
Walking is the most common form of human locomotion and the systematic study thereof is known as gai...
Systems based on inertial sensors are increasingly used in motion analysis due to their low cost, po...
Wearable sensor systems to perform human motion analysis are receiving increasing attention in diff...
Magneto-Inertial Measurement Units (MIMUs) are gathering an increasing consensus in human motion ana...
Movement analysis carried out in laboratory settings is a powerful, but costly solution since it req...
Miniaturized wearable Inertial Measurement Units (IMU) offer new opportunities for the functional as...
Gait analysis systems are monitoring systems that establish a symbiosis relationship with Ambient As...
Biomechanics analysis is frequently used in both clinical and sporting practice in order to assess h...
Miniaturized wearable Inertial Measurement Units (IMU) offer new opportunities for the functional as...
Analysis of biomechanics is frequently used in both clinical and sporting practice in order to asses...
This paper presents a cost- and time-effective wearable inertial sensor system, the InertialLAB. It ...
The amount of inertial measurement unit (IMU)-based motion analysis systems on the market rises. Due...
The increasing average age emphasizes the importance of gait analysis in elderly populations. Inerti...
Wearable sensors technology based on inertial measurement units (IMUs) is leading the transition fro...
Gait analysis is commonly performed in standardized environments, but there is a growing interest in...
Walking is the most common form of human locomotion and the systematic study thereof is known as gai...
Systems based on inertial sensors are increasingly used in motion analysis due to their low cost, po...
Wearable sensor systems to perform human motion analysis are receiving increasing attention in diff...
Magneto-Inertial Measurement Units (MIMUs) are gathering an increasing consensus in human motion ana...
Movement analysis carried out in laboratory settings is a powerful, but costly solution since it req...
Miniaturized wearable Inertial Measurement Units (IMU) offer new opportunities for the functional as...
Gait analysis systems are monitoring systems that establish a symbiosis relationship with Ambient As...
Biomechanics analysis is frequently used in both clinical and sporting practice in order to assess h...
Miniaturized wearable Inertial Measurement Units (IMU) offer new opportunities for the functional as...
Analysis of biomechanics is frequently used in both clinical and sporting practice in order to asses...
This paper presents a cost- and time-effective wearable inertial sensor system, the InertialLAB. It ...
The amount of inertial measurement unit (IMU)-based motion analysis systems on the market rises. Due...
The increasing average age emphasizes the importance of gait analysis in elderly populations. Inerti...
Wearable sensors technology based on inertial measurement units (IMUs) is leading the transition fro...
Gait analysis is commonly performed in standardized environments, but there is a growing interest in...
Walking is the most common form of human locomotion and the systematic study thereof is known as gai...