mUltiscale IoT equipPed lonG linear infRastructure resilience built and sustAinable DevelopmEnt

MSCA (Marie Skłodowska-Curie)HORIZON-TMA-MSCA-SEID: 101131146
EC Contribution
€8,924
Consortium Size
20 orgs
Start Year
2024
Summary

Long linear infrastructure (LLIs) earthworks (e.g. road & railway slopes, pipeline bedding, flood protection structures) are more vulnerable to cascading and escalating failures, due to their topographically designed spanning length and long operational lives. With increasingly frequent severe weather conditions caused by climate change, maintaining a high level of safety performance, especially for the aged LLIs, remains a constant challenge, leading to an ever-increasing amount of investment in maintenance. Current knowledge about how these assets deteriorate over time and how deterioration affects risk and performance is patchy. The conventional engineering-oriented approach alone became insufficient to provide a solution to the complex problem like this. As we accelerate into the 21st century, the latest advances in technology, through digitalisation by integrating new revolutionary data technologies of Internet-of-Things (IoT) and artificial intelligence (AI), offer opportunities to UPGRADE our LLIs and achieve new heights in safety and performance. Highly-skilled researchers and practitioners, capable of dealing with such problems, are scarce and in high demand by both academia and industry. Therefore, formed with 11 world-leading research organisations and 6 companies across Europe, Asia and Oceania with expertise and facilities in Earth Observation, geomaterial testing, constitutive modelling, data mining, machine learning, uncertainty quantification, data-driven design and optic communication, UPGRADE aims to ensure comprehensive, robust and implementable solutions are obtained for LLIs resilience built and sustainable development. The network is carefully designed to enable research and innovation staff exchange across all aspects. UPGRADE secondees will enjoy a highly integrated, interdisciplinary and intersectoral staff exchange, sharing know-how and skills development environment through the planned secondments, networkwide events and local trainings.

Consortium (20)

Project Results (10)

Source: CORDIS, the EU research results database.

Publications (8)
"Preliminary investigation of an urban landslide in evaporitic terrains detected by European Ground Motion Services in Monóvar, SE Spain"
· 2025DOI
Roberto Tomás, José Luis Pastor, Adrián Riquelme, Miguel Cano, María Inés Navarro-Hernández
"Recent landslides in the Chanchán River basin (Ecuador) – The case study of Chunchi and Alausí."
· 2025DOI
Lucia Macias, José Luis Pastor, Hugo Bonifaz, Maria Quinonez Macias, Theofilos Toulkeridis
A Physically-based Bayesian Network Model for Landslide Susceptibility Updating
· 2025DOI
Federica Ceccotto, Sheng Zhang, Xueyu Geng, Matteo Mantovani, Giulia Bossi
Deep Learning-Driven Distributed Acoustic Sensing for Real-Time Flow Dynamics Monitoring in Large-Diameter Aqueducts
· 2025DOI
Dao-Yuan Tan, Zhen-Yu Tang, Jing Wang, Hong-Hu Zhu
Distributed Temperature Sensing for hydrogeological risk mitigation in the San Lorenzo tunnel
· 2025DOI
Angelo Ballaera, Nicola Fullin, Gianluca Marcato, Luca Schenato, Lucia Vorlicek, Lisa Borgatti
GeoBarrier System incorporating Recycled Concrete and Steel Slag for Slope Protection
· 2025DOI
Rezat Abishev, Alfrendo Satyanaga, Sung-Woo Moon, Jong Kim
Geotechnical and geophysical evaluation of the remarkable Chunchi landslide of 2021 in the Andean Ecuador
Natural Hazards· 2025DOI
Lucia Macías, Hugo Bonifaz, Theofilos Toulkeridis, José Luis Pastor
Inventory and preliminary evaluation of the factors that cause landslides and affect the road infrastructure of the Barahona Province of the Dominican Republic
· 2025DOI
Ángel Tamayo, Freddy Duran, Marco Pérez, Jose Luis Pastor
Deliverables (2)