RadiMap 3D™ Radiation Mapping Platform

Transform radiation data into actionable intelligence with advanced 3D visualization and predictive analytics

The Challenge

Nuclear facilities generate vast amounts of radiation survey data that remains trapped in paper forms, spreadsheets, and disconnected databases. Health physicists struggle to visualize complex radiation fields, predict dose accumulation for work activities, and optimize job planning without integrated spatial awareness. This fragmentation leads to conservative estimates, increased worker exposure, and inefficient resource allocation.

The RadiMap 3D Solution

RadiMap 3D revolutionizes radiation protection through intelligent integration of survey data, 3D facility models, and advanced analytics. Our platform transforms static measurements into dynamic, three-dimensional radiation field visualizations that enable precise dose predictions, optimized work planning, and real-time decision support. By combining historical trending with predictive modeling, RadiMap 3D empowers health physicists to make data-driven decisions that minimize exposure and maximize efficiency.

Immersive 3D Visualization

Navigate through photorealistic facility models with radiation fields rendered as interactive heat maps, enabling intuitive understanding of complex dose rate environments.

Intelligent Data Integration

Automatically import survey data from multiple sources including electronic dosimeters, area monitors, and manual surveys, creating a unified radiation picture.

Predictive Dose Analytics

Calculate worker dose for planned activities using actual radiation fields, work locations, and task durations to optimize ALARA planning and resource allocation.

Platform Capabilities

Real-Time Monitoring

  • Live integration with area radiation monitors
  • Automatic alert generation for changing conditions
  • Mobile access for field personnel
  • Continuous data streaming and updates

Work Planning Tools

  • Route optimization for minimum dose paths
  • Stay-time calculations by location
  • Multi-worker job dose projections
  • Shielding effectiveness modeling

Historical Analysis

  • Trending of radiation levels over time
  • Source term decay calculations
  • Post-job dose reconstruction
  • Benchmarking across similar activities

Advanced Features

Machine Learning Integration

AI algorithms identify patterns in radiation field changes, predict future conditions based on plant operations, and recommend optimal work windows for minimal exposure.

Virtual Reality Training

Export radiation maps to VR platforms for immersive training experiences, allowing workers to familiarize themselves with radiological conditions before entering the field.

Regulatory Reporting

Generate comprehensive ALARA reviews, dose projections, and post-job reports formatted for regulatory submissions and management presentations.

Technical Specifications

System Architecture

  • Cloud-based or on-premise deployment options
  • RESTful API for system integration
  • Role-based access control
  • 256-bit encryption for data security

Data Management

  • Support for industry-standard file formats
  • Automated data validation and QA checks
  • Comprehensive audit trail
  • Configurable retention policies

Platform Requirements

  • Web-based access via modern browsers
  • Mobile apps for iOS and Android
  • Integration with existing RP databases
  • Compatible with major CAD formats

Implementation Success

RadiMap 3D deployments consistently deliver measurable improvements:

Industry Applications

RadiMap 3D transforms radiation protection across nuclear operations:

Experience RadiMap 3D

See how intelligent radiation mapping can transform your facility's radiation protection program.

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