Unmanned Airborne Water Observing System

Food, Bioeconomy & Natural ResourcesHORIZON-IAID: 101081783
EC Contribution
€28,689
Consortium Size
10 orgs
Start Year
2023
Summary

Background: High-resolution monitoring of rivers is important because rivers are severely affected by climate change and frequency/magnitude of extreme events are changing fast. Advanced in-situ monitoring technologies have to be combined with satellite earth observation (EO) to obtain accurate, reliable and spatio-temporally resolved information for effective decision support, risk assessment, climate change adaptation investment analysis, and operational forecasting/surveillance.Problem being addressed: Traditional hydrometric monitoring of rivers is in-situ and station-based. In-situ monitoring networks lack spatial resolution, have been declining in many regions, and data accessibility is increasingly restricted because of growing conflicts between countries over water resources allocation. In order to solve this problem, hydrometric monitoring using satellite earth observation has to be combined with drone-borne hydrometric monitoring technology for validation, deployment in remote and inaccessible regions, and to enable reliable and accurate river discharge estimation.Our solution: UAWOS develops a drone-borne water observation system providing key hydrometric variables (bathymetry, velocimetry, water surface elevation) at high spatial resolution/coverage, and data-based products/services supporting management and decision making. UAWOS integrates airborne data streams with Copernicus water bodies and water level services for cross validation and to estimate river discharge from satellite EO data.Impact: We expect that UAWOS hydrometric monitoring solutions will be factor 2-3 cheaper compared to traditional in-situ surveying. UAWOS technology will provide very high spatial resolution with accuracy on par with traditional in-situ monitoring. The technology will support smart governance/regulation in the context of the Green Deal, and create new opportunities for European business, both as a stand-alone solution and in combination with satellite EO.

Consortium (10)

Project Results (11)

Source: CORDIS, the EU research results database.

Publications (9)
Hydraulic River Models From ICESat‐2 Elevation and Water Surface Slope
Water Resources Research· 2025DOI
Aske Folkmann Musaeus, Cécile Marie Margaretha Kittel, Jakob Luchner, Monica Coppo Frias, Peter Bauer‐Gottwein
Hydraulics of Time-Variable Water Surface Slope in Rivers Observed by Satellite Altimetry
Remote Sensing· 2025DOI
Peter Bauer-Gottwein, Linda Christoffersen, Aske Musaeus, Monica Coppo Frías, Karina Nielsen
Impact of Precipitation Uncertainty on Flood Hazard Assessment in the Oueme River Basin
Hydrology· 2025DOI
Dognon Jules Afféwé, Fabian Merk, Marleine Bodjrènou, Manuel Rauch, Muhammad Nabeel Usman, Jean Hounkpè, Jan-Geert Bliefernicht, Aristide B. Akpo, Markus Disse, Julien Adounkpè
INS/GNSS/LiDAR Fusion for Accurate Positioning of UAVs in Complex River Environments
ION GNSS+, The International Technical Meeting of the Satellite Division of The Institute of Navigation, Proceedings of the 38th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS+ 2025)· 2025DOI
Artur C. Fabrício, Mathieu Joerger, Peter Bauer-Gottwein, Daniel H. Olesen
Measuring River Surface Velocity Using UAS‐Borne Doppler Radar
Water Resources Research· 2025DOI
Zhen Zhou, Laura Riis‐Klinkvort, Emilie Ahrnkiel Jørgensen, Christine Lindenhoff, Monica Coppo Frías, Alexander Rietz Vesterhauge, Daniel Haugård Olesen, Makar Lavish, Alexey Dobrovolskiy, Alexey Kadek, Niksa Orlic, Tomislav Grubesa, Luka Drmić, Henrik Grosen, Sune Nielsen, Daniel Wennerberg, Viktor Fagerström, Jenny Axén, David Gustafsson, Peter Bauer‐Gottwein
The Significance of the Leaf-Area-Index on the Evapotranspiration Estimation in SWAT-T for Characteristic Land Cover Types of Western Africa
Hydrology and Earth Systems Sciences· 2024DOI
Merk, Fabian; Schaffhauser, Timo; Anwar, Faizan; Tuo, Ye; Cohard, Jean-Martial; Disse, Markus
UAS hydrometry: contactless river water level, bathymetry, and flow velocity – the Rӧnne river dataset
Scientific Data· 2024DOI
Zhen Zhou; Laura Riis-Klinkvort; Emilie Ahrnkiel Jørgensen; Daniel Haugård Olesen; Alexander Rietz Vesterhauge; Monica Coppo Frías; Makar Lavish; Sune Nielsen; David Gustafsson; Daniel Wennerberg; Jenny Axén; Viktor Fagerstrӧm; Peter Bauer-Gottwein
Combining Uas Lidar, Sonar and Radar Altimetry for River Hydraulic Characterization
Drones· 2023DOI
Monica Coppo Frias; Alexander Rietz Vesterhauge; Daniel Haugård Olesen; Filippo Bandini; Henrik Grosen; Sune Yde Nielsen; Peter Bauer-Gottwein
Stage‐Slope‐Discharge Relationships Upstream of River Confluences Revealed by Satellite Altimetry
Geophysical Research Letters· 2023DOI
Jun Liu; Peter Bauer‐Gottwein; Monica Coppo Frias; Aske Folkmann Musaeus; Linda Christoffersen; Liguang Jiang
Other Results (1)
Periodic Reporting for period 1 - UAWOS (Unmanned Airborne Water Observing System)
Deliverables (1)