If you are a power grid operator dealing with cyber threats to remote sensors — this project developed a Zero-Trust security layer that protects the entire data chain from the device to the cloud. This ensures that only verified users and devices can access critical energy controls.
End-to-End Cybersecurity for IoT and Cloud Computing in Critical Infrastructure
Imagine a giant digital nervous system connecting everything from water pipes to hospital equipment. This project builds a high-tech security guard that watches every single connection to make sure no intruders get in. It's like having a smart lock on every single door and window of a city, all managed by one intelligent system.
What needed solving
Critical infrastructures face increasing cyber threats across their IoT-Edge-Cloud supply chains. Current security often lacks end-to-end trust and clear, explainable AI to help operators respond to incidents.
What was built
A cybersecurity layer for the NEMO meta-OS featuring Zero-Trust Network Access, an AI-driven situation perception tool, and a pan-European risk assessment platform.
Who needs this
Who can put this to work
If you are a hospital network manager dealing with insecure medical IoT devices — this project developed a protection system that monitors and mitigates risks across the healthcare supply chain. It provides clear AI-driven insights to help staff understand and stop security breaches.
If you are a logistics provider dealing with data leaks in the food supply chain — this project developed a collaborative risk assessment platform. This allows you to share threat intelligence and secure your data flow across borders.
Quick answers
What is the cost or pricing for this solution?
Based on available project data, specific pricing is not mentioned, but the project leverages the open-source Eclipse Foundation ecosystem for sustainability.
Can this be scaled to an industrial level?
Yes, the project is designed for massive adoption and will be validated in 6 pilots across critical infrastructures like energy, water, and healthcare.
What are the IP and licensing terms?
The project aims for sustainability and adoption via the de-facto European Open source Eclipse Foundation ecosystem.
How does this integrate with existing systems?
It builds on top of the NEMO meta-OS to provide a full stack of protection from network access layers up to AI-driven situation perception tools.
What is the timeline for deployment?
The project period runs from 2024-10-01 to 2027-09-30.
Who built it
The consortium is heavily industry-driven, with 19 industrial partners representing 73% of the group. This strong commercial presence, including 7 SMEs across 12 countries, suggests a high focus on market viability and practical application rather than purely academic research.
Contact SYNELIXIS LYSEIS PLIROFORIKIS AUTOMATISMOU & TILEPIKOINONION ANONIMI ETAIRIA in Greece.
Talk to the team behind this work.
Contact us to connect with the CyberNEMO consortium for pilot opportunities.