The STABLE project is addressing risk maps of Cultural Heritage (CH) at a medium scale, such as a block of buildings and large structures, to derive similar damage maps, by collecting information before the event occurs and addressing damage forecast for seismic movements which have an impact on the structural stability of the CH. The introduction of a strategy and the selection of the most efficient methods and tools for harmonization of data, criteria, and indicators to be addressed for tracking the impact of environmental changes on tangible cultural heritage assets, buildings, and monuments, including structural deterioration processes at a city/village scale, will be achieved. This valuable information needs to be complemented, calibrated, and tested with ground data (e.g., geotechnical information), site scale monitoring (e.g., ground monitoring stations, laser scanners, etc.), and risk forecasting models (related to earthquakes) to derive end-user-driven products like deformation maps, vulnerability, and damage maps. The project focuses on the design and development of an IT service platform, combining advanced satellite technologies with existing ground-based data and risk forecasting modeling for the long term and continuing monitoring and updating of structural stability of the architectural heritage, particularly historical centers affected by geo-hazards.
