Multi-hazard low-carbon resilient technologies and multi-scale digital services for a future-proof, sustainable & user-centred built environment

Climate, Energy & MobilityHORIZON-IAID: 101123467
EC Contribution
€74,972
Consortium Size
21 orgs
Start Year
2023
Summary

The built environment is ill-prepared for more frequent and increasingly intense climate-related extreme events. These cause severe socio-economic losses and adversely affects public health. Recent scientific and technological advances in the construction industry provide timely solutions for improving the resilience of buildings for specific hazards, but these are often not cost effective or eco-friendly. There is a lack of frameworks for assessing the climate resilience, making it challenging to develop optimal solutions for multi-hazard scenarios.MULTICARE will address this challenge by developing innovative multi-criteria decision-support frameworks and providing plug & play low-carbon resilient technologies for improving the multi-hazard resilience of our built environment in a cost-effective, reliable and sustainable manner. A suite of multi-disciplinary digital services and tools will be developed for multi-hazard resilience assessment, design, operation and management across multiple scales (material, component, building, neighbourhood/district). This will enable stakeholders to make more informed decisions to select materials/solutions and build resilient supply chains, even in case of cultural heritage buildings. We will demonstrate our results in large-scale pilots (3 buildings, 4 neighbourhoods/cities) in different countries with diverse conditions. A user-centred, inclusive and participatory approach will be consistently implemented at all stages of the project for citizens engagement and for extending the durability of MULTICARE impact. To achieve the project goals, MULTICARE combines 21 partners covering the whole technical value chain required for solutions in resilient and sustainable buildings. The Consortium includes experience in social sciences, user engagement and training. The Consortium will support clustering activities with other projects aimed at sharing knowledge, experience, and raising public awareness of climate resilience.

Consortium (21)

Project Results (31)

Source: CORDIS, the EU research results database.

Publications (12)
COST-PERFORMANCE EVALUATION OF A PRES-LAM CASE-STUDY BUILDING IN ITALY
World Conference on Timber Engineering 2025· 2025DOI
Giada Formichetti, Adriano Francescotti, Stefano Pampanin
Flood susceptibility estimation using randomization-based machine learning models. A case study at the Putna river basin, Romania
Geomatics, Natural Hazards and Risk· 2025DOI
Romulus Costache
Multi-hazard risk assessment of traditional vs. low damage reinforced concrete buildings
Proceedings of the 10th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering, COMPDYN 2025· 2025
Jonathan Ciurlanti, Simona Bianchi, Michele Matteoni, Barbara Polidoro, Michele Palmieri, Stefano Pampanin
Resilience Readiness Levels for buildings: Establishing multi-hazard resilience metrics and rating systems
International Journal of Disaster Risk Reduction· 2025DOI
Simona Bianchi, Michele Matteoni, Kyujin Kim, Anna Maria Koniari, Kyra Koning, Romulus Costache, Nicu Ciobotaru, Alessandra Luna-Navarro, Zhikai Peng, Jonathan Ciurlanti, Hamidreza Shahriari, Divyae Mittal, Evdokia Stavridou, Anna Silva, Michele Palmieri, Stefano Pampanin, Francesco Petrini, Mauro Overend
Seismicity of a relic slab: space–time cluster analysis in the Vrancea Seismic Zone
Earth, Planets and Space· 2025DOI
Laura Petrescu; Bogdan Enescu
A multi-criteria decision support framework for designing seismic and thermal resilient facades
Architecture, Structures and Construction· 2024DOI
Kyujin Kim; Alessandra Luna-Navarro; Jonathan Ciurlanti; Simona Bianchi
Building Energy Retrofit Planning through Markov Decision Processes
Proceedings of GNI Symposium & Expo on Artificial Intelligence for the Built World· 2024
Anna Maria Koniari, Pablo G. Morato, Charalampos P. Andriotis, Seyran Khademi, Simona Bianchi, and Mauro Overend
Combining Aerial And Terrestrial Lidar Or Photogrammetry And Radar, For Rapid Post-Earthquake Assessment
Proceedings of the 18th World Conference on Earthquake Engineering (WCEE2024 Milan)· 2024
D. Toma-Danila, A. Tiganescu, E. Nastase, T. Popescu, A. Lungu, D. Tataru, I. Cristea
Displacement-based seismic retrofit of reinforced concrete buildings through low-damage exoskeletons
Engineering Structures· 2024DOI
Simone D’Amore, Stefano Pampanin
Enhancing seismic and climate resilience of existing buildings through low- damage external exoskeletons
· 2024
Simone D’Amore, Simona Bianchi, Mauro Overend, Stefano Pampanin
Fragility functions for low‐damage post‐tensioned timber frames
Earthquake Engineering & Structural Dynamics· 2024DOI
Matteoni M.; Ciurlanti J.; Bianchi S.; Pampanin S.
Thermal Resilience to Extreme Heat: Preliminary Study on Thermal Fragility Curves
Lecture Notes in Civil Engineering, Multiphysics and Multiscale Building Physics· 2024DOI
Kyujin Kim, Simona Bianchi, Thaleia Konstantinou, Mauro Overend, Jonathan Ciurlanti, Alessandra Luna-Navarro
Deliverables (18)
Other Results (1)
Periodic Reporting for period 1 - MULTICARE (Multi-hazard low-carbon resilient technologies and multi-scale digital services for a future-proof, sustainable & user-centred built environment)