Squat Kinematics Analysis Using Vicon and Affordable Motion-Capture Solutions

Squat Kinematics Analysis Using Vicon and Affordable Motion-Capture Solutions

The analysis of human movement is crucial in biomechanical research and clinical practice. Quantitative movement analysis evaluates sports performance by tracking joint angles, segmental velocities, and body positions. There are high-accuracy motion-tracking systems like Vicon Motion Systems (Oxford...

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Bibliographic Details
Main Authors: Urszula Czajkowska, Michał Popek, Celina Pezowicz, Bogna Leśnik, Magdalena Żuk
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Sensors
Subjects:
virtual reality
HTC Vive Trackers
kinematic measurement
Online Access:https://www.mdpi.com/1424-8220/25/11/3294
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Summary:The analysis of human movement is crucial in biomechanical research and clinical practice. Quantitative movement analysis evaluates sports performance by tracking joint angles, segmental velocities, and body positions. There are high-accuracy motion-tracking systems like Vicon Motion Systems (Oxford, UK) or OptiTrack (Corvallis, OR, USA), but they are expensive, require expertise, and lack portability. This study assessed a low-cost virtual reality-based motion-tracking system with a customized eMotion data acquisition and analysis application to describe joint movements during squatting. The system, which utilizes commonly available virtual reality accessories, successfully collected kinematic data and continuous tracker trajectories. The results showed high repeatability comparable to advanced optoelectronic motion-capture systems. The eMotion system protocols exhibited low variability for most rotations, with inter-trial values ranging from 0.65° to 2.20° except for hip and knee flexion, which reached 3.09° and 4.01°. The motion-tracking technology that is part of VR headsets has great potential in supporting training and rehabilitation by enabling quantitative assessment of any activity in both the real and virtual worlds. The use of low-cost solutions can increase the potential for human motion measurements in clinical practice and biomechanical research.
ISSN:1424-8220

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