Results of the search of scientific studies, publications and communications

Magneto-Inertial Measurement Unit sensors (MIMU) display high potential for the quantitative evaluation of upper limb kinematics, as they allow monitoring ambulatory measurements. The sensor-to-segment calibration step consisting in…

Outline of reasons and objectives
The objective of this study was to develop and validate an ambulatory system for evaluating postures and movement of the upper limb, on the basis of inertial sensors. The use of such systems requires kinematic…

Magneto-Inertial Measurement Unit (M-IMU) sensors are more and more used in motion analysis as they allow for “Out-of-the lab” measurements. This technology requires a calibration process to transform sensor movement data in anatomical information…

Introduction: Magneto-Inertial Measurement Unit sensors (MIMU) are increasingly used in motion analysis as they allow for ambulatory measurements. One of the research points that deserve more investigation for MIMU-based upper limb kinematics…

Magneto-Inertial Measurement Units sensors (MIMU) are more and more used in various applications, including ergonomics, as they allow for ambulatory measurements. Despite much interest from the scientific community in this topic, several aspects…

Magneto-Inertial Measurement Unit (M-IMU) sensors are more and more used in motion analysis as they allow for “Out-of-the lab” measurements. This technology requires a calibration process to transform sensor movement data in anatomical information…