Our Technology

SEISMORA combines cutting-edge LiDAR scanning, pressure sensing, and 3D modeling technologies to revolutionize prosthetic socket design and manufacturing with precision and efficiency.

LiDAR Depth Mapping

Light Detection and Ranging technology provides comprehensive 3D depth information and surface topology capture. Multiple laser points create a dense point cloud for precise volumetric analysis with sub-millimeter accuracy.

Key Features

  • 360° coverage scanning
  • High-resolution point clouds
  • Depth accuracy ±0.5mm
  • Fast acquisition (< 5 seconds)
  • Non-contact measurement
  • Real-time data capture

FSR Pressure Sensing

Force-Sensitive Resistors measure pressure distribution across the socket interface. Real-time pressure mapping ensures optimal fit and identifies high-stress areas.

Key Features

  • Multi-point pressure array
  • Dynamic load monitoring
  • Pressure range: 0-200 kPa
  • Live heatmap visualization

3D Model Reconstruction

Advanced algorithms combine IR and LiDAR data to create accurate 3D models. Mesh processing and optimization produce production-ready CAD files.

Key Features

  • Automatic mesh generation
  • Surface smoothing algorithms
  • STL/OBJ export formats
  • CAD software compatible

Insert Shaping Workflow

AI-powered design system generates custom insert geometries based on pressure data and limb topology. Optimized for comfort and load distribution.

Key Features

  • Automated design generation
  • Pressure-based optimization
  • Material-specific toolpaths
  • Manufacturing-ready outputs

Heatmap Visualization

Real-time pressure visualization through color-coded heatmaps. Clinicians can instantly identify pressure points and adjust fit accordingly.

Key Features

  • Live pressure monitoring
  • Color-coded intensity scale
  • Historical data comparison
  • Export for documentation

Real-World Impact & Usefulness

How SEISMORA transforms prosthetic care delivery and patient outcomes

Clinical Efficiency

Reduces socket fitting time from 3-4 weeks to just 3-5 days, enabling faster patient recovery and improved clinic throughput.

  • 80% reduction in fitting appointments
  • 95% first-fit success rate
  • Serve 3x more patients per month

Patient Comfort

Precision-fit sockets eliminate pressure points and discomfort, dramatically improving quality of life for amputees.

  • 90% reduction in pressure sores
  • Extended daily wear time (12+ hours)
  • Improved mobility and confidence

Cost Effectiveness

Digital workflow reduces material waste and labor costs while improving outcomes and patient satisfaction.

  • 60% reduction in material waste
  • Lower revision and remake rates
  • ROI achieved within 6-8 months

Advanced Monitoring & Analytics

Real-time tracking and data-driven insights for optimal prosthetic care

Real-Time Pressure Monitoring

FSR sensor arrays continuously monitor pressure distribution across the socket interface during fitting and daily use. Live heatmap visualization allows clinicians to identify and address pressure points instantly, ensuring optimal fit before the patient leaves the clinic.

32
Pressure sensors per socket
100Hz
Real-time sampling rate
0-200kPa
Pressure measurement range

Patient Progress Tracking

Comprehensive dashboard tracks patient adaptation over time, monitoring wear duration, gait patterns, and comfort levels. Historical data comparison enables clinicians to identify trends and proactively address issues before they become problems.

  • Daily wear time and activity levels
  • Pressure distribution evolution
  • Comfort ratings and feedback
  • Limb volume changes over time

Quality Assurance & Documentation

Every scan, measurement, and adjustment is automatically logged and timestamped. Complete digital records ensure regulatory compliance, enable remote consultations, and provide valuable data for insurance claims and clinical research.

Continuous Improvement & Future Development

How SEISMORA evolves and improves over time to deliver better outcomes

Machine Learning Integration

Our AI algorithms learn from every socket created, continuously refining design parameters based on patient outcomes. The system identifies patterns in successful fits and automatically suggests optimizations for future designs. With each scan processed, the platform becomes smarter and more accurate.

Data-Driven Optimization

Aggregated anonymized data from thousands of patients enables population-level insights. The system identifies optimal socket geometries for different limb shapes, activity levels, and patient demographics. Clinics benefit from collective knowledge while maintaining patient privacy.

Regular Software Updates

Cloud-based platform receives automatic updates with new features, algorithm improvements, and bug fixes. No hardware upgrades required—your system gets better over time through software alone.

Monthly
Feature updates
Weekly
Algorithm refinements
24/7
Cloud support

Future Enhancements Roadmap

Q1
AI-Powered Predictive Fitting
Predict optimal socket design before fabrication
Q2
Remote Monitoring App
Patients track comfort and clinicians monitor remotely
Q3
Advanced Material Recommendations
AI suggests optimal materials based on patient needs
Q4
Integration with Gait Analysis
Combine socket fit with biomechanical assessment

Complete Workflow

From scanning to manufacturing in a streamlined digital process

01

Scan

LiDAR captures precise limb geometry

02

Analyze

FSR sensors measure pressure distribution

03

Model

Generate 3D socket and insert design

04

Manufacture

Export CAD files for production