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AI Enables Cybersecurity Meet-Up

EVENT

AI Enables Cybersecurity Meet-Up

DETAILS

Date & Time

January 14

Event organiser

Event website

SUMMARY

“AI Enables Cybersecurity” Meetup Event 2026

The Centre for Research & Technology Hellas (CERTH) represented the O-CEI Horizon Project at the “AI Enables Cybersecurity” Meetup held at the COSMOTE premises in Athens. This technical forum, centred on the theme “From Risk to Resilience,” provided a strategic platform to showcase the security advancements of O-CEI Pilot 7. The presentation focused on the critical challenge of protecting electric vehicle distribution charging infrastructure, highlighting how integrated security frameworks are essential for the future of European energy and mobility networks.

To address these challenges, Pilot 7 utilizes artificial intelligence to secure the entire computing continuum between edge devices and the cloud. This approach ensures robust resilience and trustworthiness within a large-scale, cross-domain pilot located in Rome, where the intersection of power grids and digital services requires sophisticated defence mechanisms. By implementing AI-driven monitoring and design-time security, the initiative establishes a blueprint for autonomous, secure digital infrastructure across the European Union.

ABOUT
The Project
Use cases
Consortium
WHAT'S NEW
News
Events
Press Clippings
RESOURCES
Publications
Deliverables
Press Releases
Promotional Material
Presentations & Talks
Videos
OPEN CALLS
First Open Call
O-CEI Discord
CONTACTS

Advanced Microturbines

Can you briefly introduce your company and what you do?

Advanced Microturbines Srl is an Italian deep-tech SME specialised in the development of compact microturbine technologies for energy recovery and self-powered monitoring systems. The company designs and manufactures high-efficiency microturbines from 50 W to 50 kW capable of converting pressure drops in gas and water networks into electricity, enabling autonomous power supply for IoT sensors and digital infrastructure. Its solutions support the digitalisation and sustainability of energy and industrial systems by transforming unused pressure energy into a reliable source of power for remote monitoring applications. By combining microturbine technology with smart IoT systems, we deliver innovative solutions that support smart infrastructure, improve energy efficiency, and enable decentralised energy systems.

What challenge are you addressing under the O-CEI Horizon’s first Open Call, and how is your proposal relevant to the challenge?

Our proposal addresses the challenge of enabling transparent, secure, and real-time management of energy flows in decentralised energy systems, particularly in emerging smart microgrids. As renewable generation becomes increasingly distributed, local energy communities require reliable mechanisms to measure, validate, and share energy data between multiple actors. However, current infrastructures often rely on centralised systems, not distributed ones.

The ENTRUST solution tackles this challenge by developing an edge-validated blockchain platform for energy transactions. The system integrates IoT metering, edge computing, and blockchain notarisation to create a distributed architecture capable of securely validating energy data close to where it is generated. This approach enables real-time, low-latency processing while ensuring data integrity and transparency through blockchain mechanisms.

By combining edge processing with blockchain-based verification, the proposed platform allows microgrid participants, including households, local producers, and community operators, to securely record and validate energy exchanges. This contributes directly to the goals of the O-CEI Horizon’s Open Call by supporting decentralised, trustworthy, and scalable digital infrastructures for energy communities and smart grids.

What is the expected impact of your proposal?

The expected impact of the proposal is the development of a secure and transparent operational layer for decentralised energy systems, enabling more efficient management of renewable energy within local microgrids.

Through the integration of IoT metering, edge computing, and blockchain notarisation, the ENTRUST platform allows energy transactions and operational data to be securely recorded, validated, and shared in real time. This improves transparency and trust among microgrid participants while ensuring the integrity of energy data used for operational decisions and potential energy trading mechanisms.

The project will demonstrate the solution in the Krk Island pilot, showing how local communities can manage renewable energy generation and consumption more effectively. By enabling tamper-proof data validation and automated smart-contract processes, the platform supports fair and auditable energy exchanges between producers, consumers, and community operators.

Beyond the pilot, the modular and scalable architecture of ENTRUST allows the platform to be replicated in other energy communities and distributed energy systems across Europe. In this way, the project contributes to the broader objectives of the European energy transition, supporting the integration of renewable energy, strengthening local energy resilience, and enabling new models of transparent and decentralised energy management aligned with EU climate and energy policies.

Company website: www.microturbines.it