Both assessment and mitigation of seismic vulnerability connected to cultural heritages monitoring are non-trivial
issues, based on the knowledge of structural and environmental factors potential impacting the cultural heritage.
A holistic approach could be suitable to provide an effective monitoring of cultural heritages within their surroundings
at different spatial and temporal scales. On the one hand, the analysis about geometrical and structural
properties of monuments is important to assess their state of conservation, their response to external stresses as
well as anomalies related to natural and/or anthropogenic phenomena (e.g. the aging of materials, seismic stresses,
vibrational modes). On the other hand, the investigation of the surrounding area is relevant to assess environmental
properties and natural phenomena (e.g. landslides, earthquakes, subsidence, seismic response) as well as their
related impacts on the monuments. Within such a framework, a multi-disciplinary system has been developed
and here presented for the monitoring of cultural heritages for seismic vulnerability assessment and mitigation
purposes*. It merges geophysical investigations and modeling, in situ measurements and multi-platforms remote
sensing sensors for the non-destructive and non-invasive multi-scales monitoring of historic buildings in a
seismic-prone area. In detail, the system provides: a) the long-term and the regional-scale analysis of buildings’
environment through the integration of seismogenic analysis, airborne magnetic surveys, space-borne Synthetic
Aperture Radar (SAR) and multi-spectral sensors. They allow describing the sub-surface fault systems, the surface
deformation processes and the land use mapping of the regional-scale area on an annual temporal span; b) the
short-term and the basin-scale analysis of building’s neighborhood through geological setting and geotechnical
surveys, airborne Light Detection And Radar (LiDAR) and ground-based SAR sensors. They enable assessing the
site seismic effects, the built-up structural features and the surface deformation processes of the local-scale area on
a monthly temporal span; c) the real- to near-real-time and building scale analysis of the heritage through proximal
remotely sensing tools (e.g. terrestrial laser scanning, infrared thermal cameras and real aperture radar), combined
with ambient vibration tests. They allow analyzing geometric, structural and material properties / anomalies of
buildings as well as the state of conservation of structures on a real-time temporal span. The proposed approach
is: Specific (it targets the cultural heritages monitoring for seismic mitigation purposes); Measurable (it provides
synthetic descriptors or maps able to quantify structural and the environmental properties / anomalies / trends);
Action-oriented (it provides information to plan consolidation and restoration actions for prevention activity);
Relevant (it allows achieving consolidated results for cultural heritage monitoring); Time-related (it specifies
when the results can be achieved). Meaningful results, obtained for the Saint Augustine Complex (XVI century)
located in the historic center of the Calabrian chief town of Cosenza, are presented in terms of a web-based
Geographic Information System (GIS) platform and a 3-dimensional (3D) visual software for the monitoring of
environmental/urban landscapes and buildings. These tools represent the added-value products of the proposed
SMART system, which allow integrating and combining multi-sensors analyses in order to support end-users
involved into a cultural heritage monitoring.Copernicus MeetingsPublishedVienna | Austria | 17–22 April 20165T. Sismologia, geofisica e geologia per l'ingegneria sismic