Summary
Critical Energy infrastructures (CEI) protection and security are becoming of utmost importance in our everyday life. However, cyber and system-theoretic approaches fail to provide appropriate security levels to CEIs, since they are often used in isolation and build on incomplete attack models, resulting in silos-like security management fragmented operational policies. To face these challenges, DEFENDER will (i) model CEIs as distributed Cyber-Physical Systems for managing the potential reciprocal effects of cyber and physical threats (ii) deploy a novel security governance model, which leverages on lifecycle assessment for cost-effective security management over the time (iii) bring people at centre stage by empowering them as virtual sensors for threat detection, as first level emergency responders to attacks, or by considering workforce as potential threats. DEFENDER will adapt, integrate, upscale and validate a number of TRL 4-5 technologies and deploy them within a TRL7 integrated yet adaptable framework for CEI security, resilience and self-healing “by design”, with a view to address, detect, and mitigate cyber-physical threats. To this aim DEFENDER framework will combine a range of devices/technologies for situational awareness (fixed sensors like PMUs, mobile devices like drones and advanced video surveillance) (ii) intelligent processing for cyber-physical threat detection with (iii) a toolbox for incident mitigation and emergency response and (iv) Human-In-The-Loop for managing people interaction with CEI, while leveraging on blockchain technology for peer-to-peer trustworthiness. The effectiveness of DEFENDER will be extensively validated on a CEI lab emulator (RWTH, Germany) and on 4 real life demonstrators (in France, Italy and Slovenia) fully covering the overall energy value chain, ranging from a bulk generation plant (ENGIE SA), to a decentralized RES generation one (BFP), a TSO HV network (ELES), to a DSO network (ASM) and a business prosumer.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/740898 |
| Start date: | 01-05-2017 |
| End date: | 31-08-2020 |
| Total budget - Public funding: | 8 878 232,14 Euro - 6 790 837,00 Euro |
Cordis data
Original description
Critical Energy infrastructures (CEI) protection and security are becoming of utmost importance in our everyday life. However, cyber and system-theoretic approaches fail to provide appropriate security levels to CEIs, since they are often used in isolation and build on incomplete attack models, resulting in silos-like security management fragmented operational policies. To face these challenges, DEFENDER will (i) model CEIs as distributed Cyber-Physical Systems for managing the potential reciprocal effects of cyber and physical threats (ii) deploy a novel security governance model, which leverages on lifecycle assessment for cost-effective security management over the time (iii) bring people at centre stage by empowering them as virtual sensors for threat detection, as first level emergency responders to attacks, or by considering workforce as potential threats. DEFENDER will adapt, integrate, upscale and validate a number of TRL 4-5 technologies and deploy them within a TRL7 integrated yet adaptable framework for CEI security, resilience and self-healing “by design”, with a view to address, detect, and mitigate cyber-physical threats. To this aim DEFENDER framework will combine a range of devices/technologies for situational awareness (fixed sensors like PMUs, mobile devices like drones and advanced video surveillance) (ii) intelligent processing for cyber-physical threat detection with (iii) a toolbox for incident mitigation and emergency response and (iv) Human-In-The-Loop for managing people interaction with CEI, while leveraging on blockchain technology for peer-to-peer trustworthiness. The effectiveness of DEFENDER will be extensively validated on a CEI lab emulator (RWTH, Germany) and on 4 real life demonstrators (in France, Italy and Slovenia) fully covering the overall energy value chain, ranging from a bulk generation plant (ENGIE SA), to a decentralized RES generation one (BFP), a TSO HV network (ELES), to a DSO network (ASM) and a business prosumer.Status
CLOSEDCall topic
CIP-01-2016-2017Update Date
27-10-2022
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H2020-EU.3.7.2. Protect and improve the resilience of critical infrastructures, supply chains and tranport modes
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Organisations
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| Engineering Ingegneria Informatica S.p.A. (Coördinator)
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| ASM TERNI SPA
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| DR FRUCHT SYSTEMS LTD
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| E-LEX - STUDIO LEGALE
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| ELES DOO SISTEMSKI OPERATER PRENOSNEGA ELEKTROENERGETSKEGA OMREZJA
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| ENGIE
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| ETHNIKO KAI KAPODISTRIAKO PANEPISTIMIO ATHINON
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| INEO ENERGY AND SYSTEMS
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| INSTITUT JOZEF STEFAN
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| INSTITUT ZA KORPORATIVNE VARNOSTNE STUDIJE LJUBLJANA
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| MINISTERO DELL'INTERNO
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| POWER OPERATIONS LIMITED
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| RHEINISCH-WESTFAELISCHE TECHNISCHE HOCHSCHULE AACHEN - WZL
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| SIEMENS SRL
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| SINGULARLOGIC ANONYMOS ETAIRIA PLIROFORIAKON SYSTIMATON & EFARMOGON PLIROFORIKIS