IIT currently manages more than 200 competitive projects, divided into four different areas: Life Science, Robotics, Nanomaterials and Computational Sciences.

The Projects Office supports research groups in finding external resources for the development of collaborations with other public and private institutions, assisting them during the whole project life cycle.

Specifically, the Projects Office supports researchers in:

  • The preparation of proposals (e.g. finding the matching call; providing administrative, financial and technical support; liaising with the funding bodies);
  • The monitoring of the evaluation process;
  • The grant negotiation/award with the funding body (e.g. providing administrative, financial and technical support whenever possible)
  • The management of the project, so that it can be fully implemented. 

IIT Projects Search

OPtimal Transport for Identifying Marauder Activities on LiDAR

Cultural Heritage Technologies (A. Traviglia)
2022 - 2024
Illegal excavation of archaeological sites aimed at collecting historical material culture ("looting") is a pressing problem on a global scale. The global upsurge of in the illegal excavation of cultural heritage sites (e.g. in connection to turmoils in Middle East or due to the impossibility of monitoring inaccessible areas, like in South America) and the subsequent trafficking of antiquities, exacerbated by the Covid lockdown, calls for the timely development of automatic means for identifying looting activities. The OPTIMAL (OPtimal Transport for Identifying Marauder Activities on LiDAR) project aims to tackle this challenge by developing an efficient and principled Machine Learning (ML) approach based on Optimal Transport to automatically detect looting (past and present) directly on airborne Light Detection And Ranging (LiDAR) point cloud time-series. OPTIMAL proposes, for the first time, the use of LiDAR for monitoring and assessing the damages of looting based on LiDAR’s unique ability to penetrate forest canopies and enabling to see a range of looting-related features under the canopy (e.g. shape and depth of the lootings pits) that otherwise would remain hidden due to vegetation covers. OPTIMAL will create and make publicly available the first multi-temporal LiDAR dataset for illegal activities’ identification to foster the interest of MLs researchers in developing new methods to tackle challenges in landscape archaeology and to evaluate the developed ML approach. Results of this interdisciplinary research will be widely disseminated within Cultural Heritage, Remote Sensing and Machine Learning communities and to others that can exploit OPTIMAL’s results. A communication strategy will be designed to ignite enthusiasm for technological advancements for the protection of our Heritage.