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The ERATOSTHENES Centre of Excellence for Earth Surveillance and Space-Based Monitoring of the Environment (ECoE) will provide cutting-edge Earth Observation (EO) research in Cyprus, the Eastern Mediterranean, Middle East and North Africa (EMMENA) region, Europe and Internationally for the benefit of the environment and society. One of the main focus areas of the newly established ERATOSTHENES Centre of Excellence (ECoE) is using remote sensing and space-based techniques for effective, efficient and timely cultural heritage monitoring. Such monitoring can offer tremendous benefits to Cyprus governmental institutions and policy implementation bodies, towards the protection of cultural heritage sites, including cost- and time-effective control of cultural heritage sites/monuments, raising awareness on the preservation and protection of cultural heritage from anthropogenic and environmental pressures, early warning systems and systematic monitoring of cultural heritage. Satellite Earth Observation technologies provide the ideal resource of information to undertake a wide range of effective, cost-efficient and non-invasive activities, which cannot be so easily acquired with other tools. As a result of the Copernicus Program, Sentinel 1 and 2 missions provide free satellite imagery that is accessible, provides global coverage, a high temporal resolution enabling image time series analysis and temporal characteristics, allowing for the consistent and timely monitoring of cultural heritage monuments and landscapes. The efficient exploitation of high resolution dense time-series of multi-spectral and radar imagery for large scale applications introduces new important considerations including cost-effective and systematic monitoring service of cultural landscape sites with archaeological remains, monitoring significant risks that cultural landscapes face, as well as aiding archaeological mapping and interpretation. Further-on exploiting high spatial and temporal resolution (i.e. from other satellites beyond Copernicus) improves modelling and data assimilation solutions and integration of space based remote sensing techniques with advanced ground and aerial based ones. Both data allows to develop more efficient and effective tools of investigation and monitoring, able to ensure mapping and monitoring of buried and exposed archaeological structures. This paper was developed under the auspices of the activities of the ‘ERATOSTHENES: Excellence Research Centre for Earth Surveillance and Space-Based Monitoring of the Environment’- ‘EXCELSIOR’ project that has received funding from the European Union’s Horizon 2020 research and innovation programme under Grant Agreement No 857510 and from the Government of the Republic of Cyprus through the Directorate General for the European Programmes, Coordination and Development. From 1st of October 2019, the ERC group (Department of Civil Engineering and Geomatics) at the Cyprus University of Technology is on the way to be upgraded to ERATOSTHENES Centre of Excellence (ECoE) through ‘EXCELSIOR’ H 2020 Widespread Teaming project (www.excelsior2020.eu).
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