Delivers highly accurate 3D tracking of reflective markers using advanced sub-pixel algorithms, suitable for detailed biomechanical and gait analysis.
Seamlessly synchronizes motion capture data with force plates, EMG, and other analog devices for fully time-aligned kinematic and kinetic analysis.
Provides automated and manual marker labeling, trajectory editing, and gap filling to ensure clean, reliable datasets with reduced post-processing time.
Supports standard biomechanical models to calculate joint angles, moments, powers, and center of mass for gait, sports, and clinical applications.
Exports data in industry-standard formats such as C3D, CSV, and MATLAB, enabling easy integration with third-party analysis and reporting software.
Vicon Nexus enables precise gait analysis and rehabilitation by capturing synchronized 3D motion and force data. It accurately measures joint kinematics, ground reaction forces, and movement symmetry, helping clinicians assess pathology, monitor rehabilitation progress, and make evidence-based treatment decisions with reliable, repeatable results.
Vicon Nexus supports sports science by delivering high-precision 3D motion capture and synchronized force data. It enables detailed analysis of technique, joint loading, and movement efficiency, helping coaches and sports scientists optimize performance, reduce injury risk, and track athlete progress with reliable, objective biomechanical insights.
Vicon Nexus empowers biomechanists with precise 3D motion capture and synchronized kinetic data. It enables accurate analysis of joint kinematics, forces, and moments, supporting advanced research in human movement, injury mechanisms, and performance with reliable, repeatable, and scientifically validated biomechanical measurements.
Central hub enabling seamless synchronization, control, and data acquisition for Trigno wireless sensors.
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A dynamic camera for a changing a world valkyrie is the new foundation of your motion capture system.
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High-performance motion capture cameras delivering precision, speed, and flexibility across research and engineering applications.
Biomechanical modeling software delivering intuitive musculoskeletal analysis and objective, quantitative human movement insights.
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Force Plates are high-precision biomechanical measurement systems designed to accurately capture ground reaction forces, moments, and center of pressure (CoP) during human movement.
