Satellite-Powered Training for Emergency Response

Train in Your Real Site. Not a Simulation.

Satellite-generated digital twins for emergency response training — safe, measurable, and regulation-ready.

How It Works Get in Touch

The Problem

Current Training Is Broken

Emergency responders and industrial operators face systemic gaps in how they train, measure, and document readiness.

01

Field Exercises Are Costly and Disruptive

Live exercises require significant resources, site shutdowns, and extensive logistical planning. Organizations conduct only a few per year — not enough to meet Seveso III requirements or build lasting readiness.

02

Simulations Lack Spatial Realism

Generic VR and 2D simulations use fictional maps disconnected from your actual site conditions. Training doesn't translate to real-world performance because the environment isn't realistic.

03

No Standardized Performance Measurement

Reporting is fragmented or narrative-only. Organizations cannot generate auditable evidence of readiness for regulators, inspectors, or insurers.

Full analysis →

Technical Pipeline

How It Works

From satellite imagery to auditable training reports — an end-to-end service pipeline.

  1. 01

    Data Acquisition

    Satellite EO imagery (Copernicus + VHR), UAV photogrammetry, LiDAR scanning, and GNSS/Galileo HAS positioning for sub-20 cm accuracy.

  2. 02

    Digital Twin Generation

    EO processing, 3D reconstruction from UAV/LiDAR data, and integration into a single georeferenced spatial model.

  3. 03

    XR Environment

    Import into Unity/Unreal for multi-user VR/AR/MR training with customisable incident scenarios and real-time telemetry.

Full pipeline →

Key Differentiators

Why SECURe-MET Is Different

Aspect Current Solutions SECURe-MET
Environment Realism Fictional maps or generic VR Real satellite data + EO integration, automatically updated
Positioning Accuracy GPS (3–5 m) or no tracking Galileo HAS (<20 cm) for precise resource tracking
Resilience Limited to local networks Hybrid SatCom fallback for continuity in outages
Inter-agency Integration Fragmented systems Shared XR platform for joint training
Full comparison →

Who It's For

Target Users

Three segments with urgent operational needs that existing solutions fail to meet.

SAFETY

Public Safety & Emergency Services

State and volunteer fire brigades, police, EMS, crisis management centres.

INDUSTRY

High-Risk Industrial Operators

Chemical plants, fuel storage, logistics hubs — Seveso III sites.

TRAINING

Training Institutions

Fire academies, technical universities, OSH institutes, insurance auditors.

The Team

Who We Are

QuintLabs GmbH, Berlin — software and digital product development specialising in interactive applications, data-driven platforms, and immersive experiences.

PD

Philip Drozd

Project Lead & UX/Prototype Lead

DCK

Dr. Cezary Kowalczyk

Business & Requirements Lead

RK

Rafal Kaźmierczak

Technical Lead — Geospatial & XR

Full bios →

6-Month Feasibility Study

Project Roadmap

March–September 2026. Three milestones, from kick-off to working prototype.

  1. March 2026

    Kick-off

  2. June 2026

    Mid-Term Review

  3. September 2026

    Final Review

Full roadmap →
ESA

ESA Co-Funded Activity

SECURe-MET is co-funded by the European Space Agency under the Kick-Start programme. The Kick-Start activity supports feasibility studies that explore commercial applications of space technology — satellite Earth observation, positioning, and communications.

ESA contribution: €75,000 · QuintLabs co-funding: €25,000 · Duration: March–September 2026

Get in Touch

Contact

Interested in piloting SECURe-MET with your organisation? Have questions about the feasibility study or potential collaboration?

Company
QuintLabs GmbH, Berlin
Contact details →