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Our Technology

Proactively preventing injuries with video-based AI fitness assessments


How does DRESIO's technology work

DRESIO uses a unique mix of signal processing and AI technologies to extract and analyze joint position data taken from a person's video images. 

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Joint detection

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Biomechanics data

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Insight generation

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Human position detection

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​XYZ 3D coordinates estimation

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Data analysis

No Wearables
are needed

Growing our physical assessment & rehabilitation exercise database

With all the biomechanics data collected, DRESIO's solution is able to perform various physical assessments without the use of multiple pieces of hardware. These assessments provide insights into the user's potential physical weaknesses and allow DRESIO to recommend suitable rehabilitation exercises for the user to improve his or her physical fitness.

Yoga Pose
  • Lateral Flexion

  • Flexion/Extension

  • Abduction/Adduction

  • Internal/External Rotation

Range of Motion Asessments

  • Single Leg Posture 

  • Tandem Stand

  • Single Leg Stand

  • Standing Posture

  • Semi-tandem Stand

  • Sit-to-stand

Balance Assessments

Squatting with Band
  • Single Leg Squat

  • Squat

  • Lunge

  • Overhead Squat

Lower-body Dynamic Exercises

Physiotherapy Rehabilitation Technology
  • Reaction

  • Coordination

  • Endurance

Rehabilitation Exercises

  • Five Animal Frolics

  • Ba Duan Jin 

  • Luk Tung Kuen

Traditional Chinese Exercises

Abstract Background
What biomechanics data is available?

DRESIO uses proprietary deep learning AI models to extract full-body skeletal and object key points, including up to 30 joint centers. Our solution has a proprietary biomechanics engine that extracts full-body kinematics of joints. The library provides time series and summarizes discrete metrics in generic and sport-specific modules.

Center of mass

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Angular velocity

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Joint distance ratio

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Movement speed

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Joint angle

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Range of motion

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Proprietary 3D Balance Radar

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Valid estimation of center of mass based on proven research

Real-time monitoring of body stability through a single-lens camera

Reliable metric for balance scoring catered for inter-individual anthropometric variability


Customizable reports