Summary
- Profile Type
- Technology offer
- POD Reference
- TOHU20250611018
- Term of Validity
- 11 June 2025 - 11 June 2026
- Company's Country
- Hungary
- Type of partnership
- Research and development cooperation agreement
- Commercial agreement with technical assistance
- Targeted Countries
- All countries
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General information
- Short Summary
- A Hungarian university's faculty of health sciences offers a proprietary 3D scanning technology for early detection of postural disorders. The radiation-free imaging system creates accurate 3D models of the human body within seconds and is validated with over 1000 users. The institution seeks commercial agreements with technical assistance or research cooperation partners.
- Full Description
-
A university in Hungary has developed an innovative three-dimensional full-body scanner system designed for early screening of posture-related health issues. The system is radiation-free and uses depth cameras and Arduino-controlled motors to scan the human body within seconds. A high-performance computer processes the spatial data in near real-time, generating a precise 3D model of the subject's musculoskeletal structure.
The technology builds a rotatable and zoomable 3D body image, allowing the software to automatically identify anatomical points and perform detailed measurements (angles, distances, asymmetries). The results support both preventive and rehabilitative use cases across all age groups.
The solution was validated with over 1000 individuals, laying the foundation for launching a reliable screening service. The 3D body model can be exported and printed using 3D printing technology, and the test can be repeated frequently without health risks.
This technology can also serve as the basis for a 3D skin disease scanner prototype. - Advantages and Innovations
-
- Radiation-free technology ensures safety for frequent use, suitable for children and adults alike.
- Accurate, high-speed scanning (within seconds).
- Full automation of 3D model generation and analysis with AI-supported anatomical point recognition.
- Validated prototype with a significant number of test subjects (1000+).
- The 3D output can be 3D printed, enhancing clinical and educational value.
- Versatile applications in posture diagnostics, rehabilitation, and dermatology. - Stage of Development
- Available for demonstration
- Sustainable Development Goals
- Goal 3: Good Health and Well-being
- IPR status
- Secret know-how
Partner Sought
- Expected Role of a Partner
-
The university seeks cooperation with:
- Medical device distributors or companies for joint product development or commercialization under commercial agreements with technical assistance.
- Research institutions or clinics interested in further development or adaptation for dermatology or rehabilitation applications under research cooperation agreements. - Type and Size of Partner
- SME 50 - 249
- Big company
- R&D Institution
- University
- SME 11-49
- Type of partnership
- Research and development cooperation agreement
- Commercial agreement with technical assistance
Dissemination
- Technology keywords
- 01003012 - Imaging, Image Processing, Pattern Recognition
- 06001005 - Diagnostics, Diagnosis
- 06001002 - Clinical Research, Trials
- 06001013 - Medical Technology / Biomedical Engineering
- Market keywords
- 05004001 - Electromedical and medical equipment
- 05001001 - Diagnostic services
- 05005015 - Orthopaedics
- 05010003 - Patient rehabilitation & training
- Targeted countries
- All countries
