Live Chat
Welcome to the ESA Earth Observation Framework (EOF) website! If you have any questions about EOF, I’m here to help.
Sign In
  • Lead DTCs

DTE Hydrology Next

  • Hydrology and hydro-hazards
Digital Twin Earth (DTE) Hydrology Next will provide an end-to-end reconstruction of the hydrological cycle at high resolution in space and time, focusing on floods, landslide prediction, drought monitoring and water resources management

The overarching objective of the Digital Twin Earth (DTE) Hydrology Next project is to provide an end-to-end reconstruction of the hydrological cycle at high resolution in space and time.

This will be achieved by an effective combination of state-of-the-art EO data, in-situ observations, advanced hydrological and hydraulic modelling, AI and advanced digital platform capabilities, including cloud-based infrastructure for the visualisation and the full interaction with the simulations.

Use cases will focus on flood and landslide prediction, drought monitoring and water resources management, over Europe and targeted regions in Africa and central America.

Go to project website
back to DTC page

Consortium:

CNR-IRPI (IT), TU Wien (AT), Ghent University (BE), CIMA Research Foundation (IT), Observatori de l’Ebre (ES), University of Aalborg (DK), University of Perugia (IT), Stichting Deltares (NL), RHEA System S.p.A. (IT), MEEO S.r.l. (IT), Helmholtz-Zentrum für Umweltforschung GmbH – UFZ (DE), e-GEOS S.p.A. (IT)

Other DTCs

AIR4health

The AIR4health project aims to pioneer the development of Earth observation data-driven risk algorithms for human mortality and morbidity prediction, […]

DTC Glaciers

The rapid changes in glaciers due to climate change impacts our ability to monitor and address associated risks effectively. Leveraging […]

DTC Ice Sheets

The response of the ice sheets and ice shelves to climate change has significant impacts on human activities and ecosystems […]

DTE Coastal Processes and Extremes

Coastal DTC will focus on the development of specific DT components at the land-ocean interface. It will develop five use-cases […]

EO4ER: Earth Observation for Energy Risks

The EO4ER DTC anticipates the impact of variable power production by (existing and synthetically added) photovoltaic systems on the active […]

EOAgriTwin

In the context of a rapidly growing global population, increasing crop production is essential to meet the rising food demand. […]

Forest DTC

Forest DTC aims to realise a digital replica for forests, maximising the use of Earth observation (EO) data at high […]

GET-IT

The aim of GET-it is to build a geohazard DTC based on EO data. GET-IT proposes a holistic approach to […]

Hydr’Avatar

Hydr’Avatar will develop an innovative digital twin platform for hydrology at a continental and regional/basin scale. The project will use […]

SaveCrops4EU

SaveCrops4EU aims to create a digital representation of cropland ecosystems, with monitoring and prediction capabilities, to enable better implementation of […]

SURE: Smart Urban Resilience Enhancement

Urbanization has brought about numerous challenges for cities worldwide, with two of the most pressing issues being Urban Heat Islands […]

SvalbardDT

The Arctic region is warming four times faster than the global average, which is driving mass loss from glaciers, diminishing […]

Scroll to Top