Soccer movement analysis
Lab-grade analysis with just a smartphone, tripod and cones. You now have the edge, no excuses.
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Faster, stronger, fitter Without the guesswork
VueMotion lets you measure every athlete’s movement with lab-grade accuracy resulting in improved performance and greater availability.
Bring the lab to your pitch
1. Maximize Player Availability
2. Objective Movement Intelligence
3. Scalable & Field-Ready
Your Performance Catalyst
Objective Movement Analysis
Measure linear speed, acceleration, COD (change of direction), detect asymmetries, detect Yes, fatigue, and inefficiencies all in one simple test. Take away the guesswork and use data-driven insights to guide your programs
AI-powered Reports & Insights
VueMotion generates detailed biomechanical models that capture the complexity of human movement. Our reports generate easy to understand data and visualizations for coaches, athletes, and medical staff, harnessing the power of AI and video for unmatched insights
Smartphone Capture
No wearables or lab needed. Test anywhere: training ground, clinic, gym
Analysing core movements in Soccer
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Captures athlete's force production and sprint mechanics during early phases of movement.
Outputs- ground contact time, step length, stride frequency and force symmetry, visualized with kinograms (frame-by-frame movement snapshots).
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Captures braking forces, control mechanics, and limb alignment, offering insights on how efficiently an athlete slows down. Weaknesses in eccentric strength or mechanical control are flagged.
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Evaluates maximal sprinting mechanics once the athlete reaches top speed. Biomechanical outputs include posture angles, stride efficiency, stiffness, and maximal velocity
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Assesses agility, directional control and neuromuscular coordination during sharp cuts or pivots. Biomechanics outputs include joint loading, limb placement, and movement symmetry
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evaluates lower-body power and reactive strength, with outputs like jump height, peak force, and eccentric-concentric phase ratios. For soccer players, this test helps monitor explosive ability for actions like heading, tackling, or rebounding from ground contact
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Color-coded session reports that summarize biomechanical results across multiple tests. Easy-to-read visuals to guide athletes and coaches through performance tracking over a season.
Be part of the future of human movement
Partnered With The Best
Frequently Asked Questions
Most athletic performance testing is restrictive. It’s typically lab-based and requires expensive equipment like force plates, nord boards, and more. VueMotion can be used by anyone with a smartphone in any environment, making movement analysis more accessible to coaches and players worldwide.
Computer vision is a field of artificial intelligence (AI) that enables computers and systems to interpret and make decisions based on visual data. Computer vision involves the development of algorithms and models allowing computers to gain a high-level understanding from digital images or videos. Computer vision seeks to automate tasks that the human visual system can do like recognizing objects, understanding scenes, and tracking movements.
Movement analysis in sports is the study of athlete motion with the intention of enhancing performance, preventing injuries, and understanding biomechanics. Movement analysis in sports can be conducted using various technologies and methods to evaluate the efficiency, effectiveness, and safety of athlete movement.
Biomechanics is the scientific study of the mechanical aspects of living organisms with a focus on movement and structure. It applies principles from mechanics, engineering, and physics to understand how forces interact with biological systems. Biomechanics encompasses everything from analyzing the locomotion of animals to understanding the complex mechanics of human motion.
Computer vision and machine learning are closely related fields, but they are not the same. Computer vision is a broader field focused on making sense of visual data. Machine learning provides powerful tools and techniques to advance the capabilities of computer vision. Many modern computer vision applications, like VueMotion, rely heavily on machine learning to achieve high accuracy insights.
