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Inertial measurement unit-based motion capture to replace camera-based systems for assessing gait in healthy young adults: Proceed with caution

Julie Rekant, Scott D. Rothenberger, April J. Chambers

2022Measurement Sensors25 citationsDOIOpen Access PDF

Abstract

Gait analysis can identify injury-risk markers indiscernible to the naked eye. Inertial measurement unit (IMU)-based motion capture circumvents optokinetic motion capture (OMC) clinical implementation barriers with its portability, increased affordability, and decreased computational burden. We compared an IMU system to a robust OMC marker set for gait analysis. 10 healthy adults walked at self-selected speeds equipped with Noraxon MyoMotion IMUs and a 24-marker, 5-cluster marker-set in view of 14 OMC cameras. A single calibration was applied. IMU system and OMC calculated joint angles were compared. A single calibration performed similarly to previously reported repeated calibration. IMU and OMC agreement was best in the sagittal plane with IMU axis-mixing affecting off-sagittal plane agreement. System differences were greater than 5° for most motions. Measurement system bias showed at the ankle and knee, however differences varied across participants. IMU kinematics should be interpreted with caution; consistency and accuracy must improve before IMUs can replace OMC.

Topics & Concepts

Inertial measurement unitArtificial intelligenceUnits of measurementGaitComputer visionMotion captureComputer scienceSagittal planeCalibrationKinematicsGait analysisMatch movingMotion analysisMotion (physics)Physical medicine and rehabilitationMathematicsMedicineStatisticsPhysicsClassical mechanicsQuantum mechanicsRadiologyBalance, Gait, and Falls PreventionDiabetic Foot Ulcer Assessment and ManagementInjury Epidemiology and Prevention
Inertial measurement unit-based motion capture to replace camera-based systems for assessing gait in healthy young adults: Proceed with caution | Litcius