WP 2: NTUA prepared the Second Periodic Progress Report (D2.5) summarizing work package integration, risk mitigation efforts, secondments, and financial management. Regular coordination meetings and workshops ensured consistency across technical, ethical, and dissemination streams.
WP 3:NKUA led the production of high-resolution surface parameter maps (D3.1) supported by the Finnish Meteorological Institute (FMI), who contributed a large-eddy simulation–based downscaling approach for wind-related hazards (D3.2). NKUA also implemented a 3DVar data assimilation methodology (D3.3) to integrate meteorological observations with reanalysis data, resulting in enhanced site-specific climate projections for CH areas. These models directly fed into the risk simulations and exposure analyses across the pilot sites.
WP 4: Advanced the Socio-Geotechnical (SG) Simulator (D4.2) a core innovation of the project that combines hazard data, building typology, structural fragility, and social vulnerability factors. Through an interactive interface supported by serious games, stakeholders can assess cascading effects of hazards in historic environments, with a case study demonstrated in Epidaurus.
WP 5: Resilience Guard (RG) and Geomatics Cyprus (GMCY) developed and operationalised a UAV-based methodology for multi-modal CH monitoring (D5.1). RG further led the dynamic risk modeling framework (D5.2) which introduced the use of real-time UAV imagery and finite element modeling to update fragility curves dynamically. This approach allows CH stakeholders to reassess structural risk based on post-event inspections or routine maintenance updates.
WP 6: Led by the Environmental Research and Restoration Authority (ERRA), delivered both the CHRAP middleware (D6.2) and the final visualization dashboard (D6.3). The platform integrates climate models, sensor feeds, and risk simulations into a secure, modular, and stakeholder-oriented system. The backend leverages Django and Airflow for process automation, while the frontend (developed using CesiumJS and React) supports interactive 3D mapping, temporal overlays, and decision simulations.
WP 7: Coordinated by NTUA, the consortium completed a comprehensive campaign of high-resolution data acquisition across selected cultural heritage sites, including Corfu Castle, Aitoliko, and Mytilene. This effort was documented in Deliverable D7.2 and involved the use of advanced drone platforms (DJI Air 2S, Mavic 2 Pro, and the incoming Matrice 350 RTK) alongside mobile ground-level imaging tools. The combined aerial and terrestrial data were georeferenced, processed into orthophotos and 3D models, and integrated into the CHRAP platform to support multi-scale risk assessments. Sites were chosen for their architectural complexity and exposure to multiple natural hazards, and the acquired datasets serve as foundational inputs for structural integrity evaluation, computer vision training, and stakeholder planning.
WP 8: NTUA and other partners successfully delivered four YADES summer schools (D8.1) in Athens, Milan, and Messinia. These events brought together PhD students, professionals, and CH authorities for interdisciplinary training in climate modeling, structural simulation, participatory planning, and serious games.
WP 9: Culminated in two deliverables. D9.1 reviewed dissemination efforts, stakeholder events, and outreach strategies, while D9.2 mapped the future exploitation of YADES results, including open-source release of CHRAP, policy recommendations, and integration with other EU CH initiatives.