Heritage Resilience Against CLimatic Events on Site
Start Date: 01/05/2016,     End Date: 30/04/2019


HORIZON 2020,  Grand Agreement Nο 700395 

To designvalidate and promote responsive systems/solutions for effective resilience of CH against climate change effects, considering as a mandatory premise an holistic, multidisciplinary approach through the involvement of different expertise’s (end-users, industry/SMEs, scientists, conservators/restorers and social experts, decision, and policy makers). This will be operationally pursued :

  • With the development of a system exploiting an ICT platform able to collect and integrate multisource information in order to effectively provide complete and updated situational awareness and support decision for innovative measurements improving CH resilience, including new solutions for maintenance and conservation.
  • The HERACLES effectiveness will be ensured by the design and validation of manageable methodologies also for the definition of operational procedures and guidelines for risk mitigation and management.

The strength of HERACLES solutions is their flexibility in evaluating a big quantity of different information that can be changed and tailored to the specific CH assets needs, guaranteeing in that way a general applicability.

A fundamental role will be played by end-users, which are active part in the project activities.

HERACLES system will be designed and developed by accounting for the economic sustainability and future acceptance by the market and for the social and economic impact for public and local communities while respecting the integrity of CH and the value it hold for communities.

  • Effective technological transfer of HERACLES outcomes to large companies, SMEs and end users, suitable dissemination, communication, education and training activities are also organized to disseminate vision and progresses obtained to different communities, in a vision of wide audiences’ awareness.

HERACLES will follow all the risk phases, not only the immediate effects after a crisis : through a complex sensing system based on different technologies (remote sensing; in-situ data; meteo data, etc…), potential threats that can have a slow evolution will be detected.

Prevision, alert and risk management phases are foreseen, but also all the phases that come first and come after the risk phase: maintenance, conservation, remediation, material development and best practices.

With satellites it will be possible to monitor continuously the sites.

Strong market orientation: large industries and medium enterprises have a direct interest that the outputs translate into an operative system.

Principal Investigator

Dr. Pouli Paraskevi
Principal application Scientist

Technical Staff

Ms. Melessanaki Kristalia
Technical Scientist
Mr. Hatzigiannakis Kostas
Technical Scientist
Mr. Andrianakis Michalis
Technical Scientist

Research Associates

Dr. Siozos Panagiotis
PostDoctoral Fellow
Dr. Philippidis Aggelos
PostDoctoral Fellow
Dr. Kokkinaki Olga
PostDoctoral Fellow
e-GEOS, Italy
UNINOVA, Portugal
Consiglio Nazionale della Ricerche, Italy
Fraunhofer, Germany
SISTEMA, Austria
TIEMS, Belgium
University of Crete, Greece
Ephorate of antiquities of Heraklion, Crete, Greece
Comune di Gubbio, Italy
Universita degli studi di Perugia, Italy
CVR, Ital


European Horizon 2020 framework