SciTransfer
PALAESTRA · Project

AI-Powered Simulation Platform for High-Risk Chemical and Nuclear Emergency Training

digitalPrototypeTRL 3

Imagine a high-tech flight simulator, but for people dealing with dangerous chemical spills or nuclear leaks. Instead of risking lives with real toxins, trainees use digital twins and AI to practice in a safe, virtual world. It's like a video game that tracks your heart rate and stress to make sure you're actually ready for the real thing.

By the numbers
6
consortium partners
3
countries involved
50%
industry ratio
The business problem

What needed solving

CBRNe training is currently too expensive and requires rare specialized expertise to create realistic scenarios. This leads to inefficient training and potential safety risks during live exercises.

The solution

What was built

A modular platform featuring AI-driven scenario generation, digital twins for training environments, and real-time physiological monitoring tools.

Audience

Who needs this

Civil security agenciesHazardous material training centersChemical and nuclear plant safety managersEmergency response government bodies
Business applications

Who can put this to work

Public Safety & Defense
enterprise
Target: Civil Security Agencies

If you are a civil security agency dealing with the high cost of setting up physical disaster drills — this project developed a modular platform that provides immersive simulations. This allows you to train responders without exposing them to actual hazards.

Industrial Safety
enterprise
Target: Chemical Plant Operators

If you are a chemical plant operator dealing with a lack of specialized experts to design safety drills — this project developed AI-driven scenario generation. This reduces the reliance on rare expertise to create realistic training exercises.

EdTech / Professional Training
SME
Target: Emergency Response Training Centers

If you are a training center dealing with inefficient manual evaluation of student performance — this project developed real-time physiological monitoring and automated tools. This lowers the instructor workload and improves how knowledge is transferred.

Frequently asked

Quick answers

How much does the platform cost to implement?

Based on available project data, specific pricing is not mentioned, but the objective states the solution is designed to be cost-effective for training facilities.

Can this be scaled to different types of emergencies?

Yes, the project is described as a modular and adaptable platform designed to be scalable across the European civil security landscape.

Who owns the IP and how is licensing handled?

Based on available project data, licensing details are not provided, though the project ensures compliance with EU regulations like the AI Act and GDPR.

Does the system comply with data privacy laws?

Yes, the platform emphasizes compliance with EU regulations, specifically mentioning GDPR and the AI Act.

When will the platform be ready for use?

The project period runs from 2025-11-01 to 2027-10-31, suggesting availability toward the end of 2027.

Consortium

Who built it

The consortium is highly industry-oriented with a 50% industry ratio, consisting of 6 partners across 3 countries (BE, EL, NL). The presence of 3 industry partners, including 2 SMEs and the coordinator PROMETECH BV, suggests a strong focus on commercial viability and practical application rather than pure academic research.

How to reach the team

Contact PROMETECH BV in the Netherlands

Next steps

Talk to the team behind this work.

Contact us to track this project's development for early adoption opportunities.