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Completed HORIZON European Commission

Multimodal multitAsk learninG for MultIsCale BATHYmetric mapping in shallow waters


Funder European Commission
Recipient Organization Technische Universitat Berlin
Country Germany
Start Date Feb 01, 2023
End Date Aug 31, 2025
Duration 942 days
Number of Grantees 2
Roles Coordinator; Associated Partner
Data Source European Commission
Grant ID 101063294
Grant Description

Accurate, detailed and high-frequent bathymetry, coupled with the important visual and semantic information, is crucial for the undermapped shallow coastal areas being affected by intense climatological and anthropogenic pressures.

Regular UAV and satellite imagery have the potential to frequently and consistently map those areas to different extents and detail, providing ground breaking key information. However, optical properties of water severely affect images and refraction is the main factor affecting their geometry. Current Structure from Motion (SfM) based solutions for refraction correction are slow and costly.

Satellite Derived Bathymetry (SDB) methods deliver faster results over huge shallow areas albeit in lower spatial resolution, failing to handle non-homogeneous seabeds.

Recent methods based on Convolutional Neural Networks (CNNs) deliver either only the bathymetry or the semantics of the scene, tackling those problems separately and in one scale/modality at a time.

They are mostly dedicated to satellite images, failing to address the challenges of shallow waters, being also inefficient for UAV images, preventing higher resolution results.

MagicBathy will establish an advanced deep learning framework for low-cost shallow water mapping by developing a novel boundary-aware multitask, multiscale and multimodal learning approach for bathymetry and semantics together, exploiting single either UAV or satellite imagery.

To overcome the domain gap, generalize and improve performance, self-supervised in-domain representation learning will be performed.

To enhance the spatial resolution of low resolution satellite images and hence of the resulting bathymetric/semantic maps, a conditional generative adversarial network (cGAN)-based Super Resolution framework will be developed, dealing with the special challenges of shallow water imagery.

Frameworks, models and results will be published in open access, enabling the rapid progress in shallow water mapping worldwide

All Grantees

Technische Universitat Berlin; Ceske Vysoke Uceni Technicke V Praze

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