Motivation: Compare and validate wearable sensor kinematic gait parameters with the existing gold standard. State of the art: • Experiment was based on known orientation and rotation in predefined speeds. • All the algorithms analysed showed reasonable results (delta rms errors < 6.4°) [1]
International audienceInertial measurement unit (IMU) systems are offering promising alternatives to...
Intelligent devices such as smart phones, smart watches, virtual reality (VR) headsets and personal ...
Clinically oriented Inertial Measurement Unit sensor systems consisting of several sensors tethered ...
Inertial measurement units are gaining importance in the field of gait analysis and human motion tra...
Inertial sensors can potentially assist clinical decision making in gait-related disorders. Methods ...
This paper presents a novel orientation estimate scheme using Inertial Guided Visual SAmple Consensu...
The portability of wearable inertial sensors makes them particularly suitable for measuring gait in ...
Gait analysis using inertial measurements units (IMU) offers a wider range of capabilities and freed...
Miniaturized wearable Inertial Measurement Units (IMU) offer new opportunities for the functional as...
Spatiotemporal gait parameters such as step time and walking speed can be used to quantify gait perf...
Walking is the most common form of human locomotion and the systematic study thereof is known as gai...
Because of the limitation of GPS indoors there is a demand for alternative methods to accurately det...
Inertial measurement units are commonly used to estimate the orientation of sections of sections of ...
Gait analysis is the quantification of locomotion. Understanding the science behind the way we move ...
This paper describes a novel functional body-to-sensor calibration procedure for inertial sensor-bas...
International audienceInertial measurement unit (IMU) systems are offering promising alternatives to...
Intelligent devices such as smart phones, smart watches, virtual reality (VR) headsets and personal ...
Clinically oriented Inertial Measurement Unit sensor systems consisting of several sensors tethered ...
Inertial measurement units are gaining importance in the field of gait analysis and human motion tra...
Inertial sensors can potentially assist clinical decision making in gait-related disorders. Methods ...
This paper presents a novel orientation estimate scheme using Inertial Guided Visual SAmple Consensu...
The portability of wearable inertial sensors makes them particularly suitable for measuring gait in ...
Gait analysis using inertial measurements units (IMU) offers a wider range of capabilities and freed...
Miniaturized wearable Inertial Measurement Units (IMU) offer new opportunities for the functional as...
Spatiotemporal gait parameters such as step time and walking speed can be used to quantify gait perf...
Walking is the most common form of human locomotion and the systematic study thereof is known as gai...
Because of the limitation of GPS indoors there is a demand for alternative methods to accurately det...
Inertial measurement units are commonly used to estimate the orientation of sections of sections of ...
Gait analysis is the quantification of locomotion. Understanding the science behind the way we move ...
This paper describes a novel functional body-to-sensor calibration procedure for inertial sensor-bas...
International audienceInertial measurement unit (IMU) systems are offering promising alternatives to...
Intelligent devices such as smart phones, smart watches, virtual reality (VR) headsets and personal ...
Clinically oriented Inertial Measurement Unit sensor systems consisting of several sensors tethered ...