| Contact-free, Wireless Scanning |
Uses white light and infrared VCSEL illumination; the scanner is handheld and does not require physical contact.
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Improves comfort, especially for sensitive areas, infants, or patients unable to hold still; reduces infection risk and mess. |
| Standalone Operation (Onboard Processing) |
Scans, processing, and data export all happen within the device; no always-on external computer needed.
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Simplifies setup; more portable; allows use in field clinics or for outreach; reduces hardware requirements. |
| Versatile & Personalized Scan Presets |
Preconfigured settings for various body parts: face, cranial, torso, upper & lower limbs, feet, socket, seating, foam box. Settings are also customizable.
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Speeds up scanning; ensures consistency; reduces operator error; better fit for diverse patient needs. |
| Movement Compensation |
Algorithms built in to tolerate small patient movement (e.g. breathing, slight shifts) during scanning.
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Reduces need for rescans; particularly useful for infants, kids, or patients who can’t stay perfectly still. |
| High-Resolution Texture Capture |
Equipped with a 5-megapixel texture camera; captures both geometry & surface texture.
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Enables more accurate modeling (e.g. skin features, texture) which helps with device interfaces, shaping, aesthetic/fit concerns. |
| Flexible Alignment Modes |
Supports multiple alignment modes: feature-based, texture, hybrid, markers, global markers.
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Makes scanning more reliable across different surfaces, shapes, and scan conditions. Helps ensure better scanned model fidelity. |
| Technical Specs (Basics) |
• Point spacing: 0.2 – 3 mm
• Field of view (FOV): White light ~ 475×360 mm; Infrared mode ~ 1090×1260 mm
• Accuracy: from ~0.05 mm (volumetric accuracy) in many modes.
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Ensures precision for custom prosthetic sockets, orthotic parts, and where geometry matters deeply. Larger FOV helps capture larger body parts or full-limb scans. |
