Climate-aware Resilience for Sustainable Critical and interdependent Infrastructure Systems enhanced by emerging Digital Technologies

MSCA (Marie Skłodowska-Curie)HORIZON-TMA-MSCA-SEID: 101086413
EC Contribution
€11,178
Consortium Size
12 orgs
Start Year
2023
Summary

ReCharged is a transformative project that has the vision to develop a new integrated framework toward a practical visualisation platform in order to optimise and streamline climate resilience and whole-life carbon emission assessments for interdependent Transport and Energy Systems, Lifelines and Assets (iTESLA). To achieve this, ReCharged harnesses the power of digital technologies and data to quantify the functionality and recovery of iTESLA after hazards. This is in response to the lack of methods of assessment and communicable visualisations of consolidated climate resilience and whole-life carbon emission metrics for iTESLA. ReCharged will account for interdependencies that lead to failure propagation in transport and energy systems, to accelerate post-hazard recovery, mitigate losses and societal ramifications due to climate change. In doing so, ReCharged underpins synergies and participatory decision-making to combat siloed thinking in infrastructure management. This project will lead to 50% faster decision-making in iTESLA management, 50% reduction of carbon emissions for the two case studies analysed, create new jobs, and make Europeans fit for the Digital Age. ReCharged is a synergy that combines the exchange of interdisciplinary knowledge and tailored training of staff, through an alliance between leading academic institutions, industrial partners, SMEs, and a research and technology center. All beneficiaries are committed to exploiting and transferring their skills and knowledge, to incentivise data-driven resilience toward climate adaptation and reduce emissions in critical infrastructure. ReCharged will augment researchers skills and career perspectives, create a community of practitioners, improve critical infrastructure, and ultimately make people feel safer.

Consortium (12)

Project Results (13)

Source: CORDIS, the EU research results database.

Publications (10)
Reduced Order Modeling conditioned on monitored features for response and error bounds estimation in engineered systems
Mechanical Systems and Signal Processing· 2025DOI
Konstantinos Vlachas, Thomas Simpson, Anthony Garland, D. Dane Quinn, Charbel Farhat, Eleni Chatzi
Discussing the spectrum of physics-enhanced machine learning: a survey on structural mechanics applications
Data-Centric Engineering· 2024DOI
Marcus Haywood-Alexander, Wei Liu, Kiran Bacsa, Zhilu Lai, Eleni Chatzi
Enhancing stress measurements accuracy control in the construction of long-span bridges
Scientific Reports· 2024DOI
Alvaro Gaute-Alonso, David Garcia-Sanchez, Óscar Ramón Ramos-Gutierrez, Vasileios Ntertimanis
Fault detection and identification for control systems in floating offshore wind farms: A supervised Deep Learning methodology
Ocean Engineering· 2024DOI
Ana Fernandez-Navamuel, Yerai Peña-Sanchez, Vincenzo Nava
Fragility Modeling of Power Grid Infrastructure for Addressing Climate Change Risks and Adaptation
WIREs Climate Change· 2024DOI
George Karagiannakis; Mathaios Panteli; Sotirios Argyroudis
GRNN-based cascade ensemble model for non-destructive damage state identification: small data approach
Engineering with Computers· 2024DOI
Ivan Izonin; Athanasia K. Kazantzi; Roman Tkachenko; Stergios-Aristoteles Mitoulis
Vulnerability assessment and lifecycle analysis of an existing masonry arch bridge
Engineering Structures· 2024DOI
Raffaele Cucuzza, Angelo Aloisio, Roberta Di Bari, Marco Domaneschi
Sustainability and climate resilience metrics and trade-offs in transport infrastructure asset recovery
Transportation Research Part D: Transport and Environment· 2023DOI
Stergios-Aristoteles Mitoulis, Dan V. Bompa, Sotirios Argyroudis
An indicator-based multi-hazard risk assessment framework for urban-scale applications
Skoulidou, Despoina; Kazantzi, Athanasia
Machine-learning assisted damage state identification for deteriorating bridges
Kazantzi, Athanasia; Moutsianos, Sokratis; Bakalis, Konstantinos; Mitoulis, Stergios Aristoteles
Deliverables (2)
Other Results (1)
Periodic Reporting for period 1 - ReCharged (Climate-aware Resilience for Sustainable Critical and interdependent Infrastructure Systems enhanced by emerging Digital Technologies)