000006180 001__ 6180 000006180 005__ 20230126134907.0 000006180 037__ $$aCTALK-2023-0023 000006180 100__ $$aMoraux, A. 000006180 245__ $$aA deep learning multimodal method for precipitation estimation: case study of the extreme rainfall from July 2021. 000006180 260__ $$c2022 000006180 269__ $$c2022-05-27 000006180 520__ $$aIn July 2021, western Europe has been subject to extreme rainfall that lead to severe flooding, incurring heavy property losses and claiming dozens of people’s lives in both Germany and Belgium. This unfortunate disaster is a reminder that carrying out studies about extreme event forecasting is a matter of prime importance in the field of meteorology. The extreme rainfall from July 2021 invites us to study the performance of our deep learning method for precipitation estimation in case of extreme events. The main novelty of our method resides in its ability to merge different physical measurement modalities in order to improve precipitation estimation accuracy. In specific, the proposed method merges rain gauge measurements with a ground-based radar composite and thermal infrared satellite imagery. The proposed convolutional neural network design, composed of an encoder–decoder architecture, performs multiscale analysis of the three input modalities to simultaneously estimate the rainfall probability and the precipitation rate with a spatial resolution of 2 km. The training of our model and its performance evaluation are carried out on a dataset spanning 5 years from 2015 to 2019 and covering Belgium, the Netherlands, Germany and the North Sea. Once trained, we evaluate the performance of our model to estimate the extreme precipitation that happened in Belgium and Germany in July 2021 by comparing our results with the measurements from rain gauges and radar estimation. 000006180 594__ $$aSTCE 000006180 700__ $$aDewitte, S. 000006180 700__ $$aMunteanu, A. 000006180 773__ $$tEGU, Vienna 000006180 8560_ $$fsteven.dewitte@ksb-orb.be 000006180 85642 $$ahttps://meetingorganizer.copernicus.org/EGU22/EGU22-8097.html 000006180 906__ $$aContributed 000006180 980__ $$aCTALKCONT