CS, Gebäude 30.23, 13. OG, Seminarraum 13-02
(1) Alexander Jong (2) Evgenii Churiulin (3) Tobias Selz (4) Dwaipayan Chatterjee
(1) tbd (2) EvaSuite as evaluation tool for analysis of climate data (3) AI models and the butterfly effect
(4) Evaluating Km Scale ICON and IFS Simulations in the High-Dimensional Observational Latent Space
CS, Geb. 30.23, 13. OG, Seminarraum 13-02
(1) Viktoria Dürlich (2) tbd (3) tbd (4) tbd, Chair: Duc Nguyen
(1) Understanding High-Wind Conditions in the Cold Sector of Extratropical Cyclones during DI events through Observations and Modelling (2) tbd (3) tbd (4) tbd
CS, Geb. 30.22, Otto-Lehmann-Hörsaal
Dr. Anna Possner, Institute for Atmospheric and Environmental Sciences, Goethe University Frankfurt/Main
TBD
CS, Gebäude 30.23, 13. OG, Seminarraum 13-02
(1) Jan Handwerker (2) Elias Hühn (3) Eleonora Cusinato (4) Yukun Yang, Chair: Kam Lam Yeung
(1) tbd (2) tbd (3) From Global Climate Models to Regional Climate Models: Consistency Assessment of the Hydrological Cycle (4) tbd
CS, Geb. 30.22, Otto-Lehmann-Hörsaal
Dr. Michael Maier-Gerber, Forecasts and Services Department, European Centre for Medium-Range Weather Forecasts (ECMWF)
Tropical cyclones (TCs) are among the most devastating weather phenomena on Earth, frequently causing numerous fatalities and leading to extensive and costly damage. Effective evacuation planning and the implementation of precautionary measures depend on forecasts that are both highly accurate and available with sufficient lead time. Furthermore, TCs are of particular interest to operational forecasting centres, as they are characterized by extreme deviations from the mean atmospheric state. As such, they pose a significant challenge to numerical weather prediction systems and serve as a rigorous stress test for any forecasting model, making their evaluation a key focus area.
While speculation persisted until not long ago that the predictability limit for TC track forecasts had been reached, dedicated research efforts were launched to pool resources and advance intensity forecasts in physics-based models. With the advent of data-driven weather forecasting, however, previously assumed forecast limits have been exceeded in certain aspects of TC prediction, while others have deteriorated. Current model developments aim to fuse both worlds into a hybrid modelling approach, which has shown promising results.
In this presentation, I will give an overview of the latest research and developments in TC forecasting with ECWMF’s physics-based and data-driven models.
CN, Geb. 435, Seminarraum 2.05
Dr. Sanam Vardag , Institute for Environmental Physics, Heidelberg University
TBD
CS, Geb. 30.23, 13. OG, Seminarraum 13-02
(1) Andreas Baer (2) Srah Paratoni (3) Kevin Gramlich (4) tbd, Chair: Ferdinand Briegel
(1) Sensitivity of weather forecasts in tropical Africa to available observations – an idealized study using the TEEMLEAP testbed (2) Doppler Lidar Volume Flux Observations in a Broad Alpine Valley (3) Singular Vectors in data-driven NWP models (4) tbd
CS, Geb. 30.23, 13. OG, Seminarraum 13-02
(1) Cédric Froidevaux (2) Melina Sebisch (3) tbd (4) Marie Lange
(1) Sensitivity of weather forecasts in tropical Africa to available observations – an idealized study using the TEEMLEAP testbed (2) tbd (3) tbd (4) tbd
KIT Campus Nord, IMKAAF
Gebäude 435, Raum 205
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Prof. Tuukka Petaejae, University of Helsinki, Finland, Institute for Atmospheric and Earth System Research INAR / Physics
CS, Geb. 30.22, Otto-Lehmann-Hörsaal
DR. Paola Formenti, Laboratoire Interuniversitaire des Systèmes Atmosphériques (LISA). CNRS, France
TBD
CS, Geb. 30.23, 13. OG, Seminarraum 13-02
(1) Katharina Loewe / Corinna Rebmann (2) Miriam Simm (3) Maraike Burba (4) Julian Meusel
(1) Data management topics (2) tbd (3) EnVar Data Assimilation for ICON-LAM (4) tbd
KIT Campus Nord, IMKAAF
Gebäude 435, Raum 205
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Dr. Stefan Kneifel, Ludwig-Maximilians-Universitaet Muenchen, Meteorologisches Institut, Experimentelle Meteorologie
In mid-latitudes, almost every raindrop that reaches the surface, starts as an ice particle in the cloud aloft. Ice microphysical processes are thus key for realistically forecasting the evolution of clouds and precipitation. Besides in-situ observations and laboratory experiments, remote sensing methods, such as modern cloud radars, provide a wealth of information about processes, such as aggregation, riming, and secondary ice production. This talk will provide a compact overview of the measurement principles and application examples of how we can use cloud radars in combination with modern modelling tools to improve our understanding of ice microphysical processes in clouds.
CN, Geb. 435, Semianrraum 2.05
Dr. Stefan Kneifel
TBD
CS, Geb. 30.22, Otto-Lehmann-Hörsaal
Dr. Olivia Martius, Institute of Geography, University of Bern
tbd
CS, Geb. 30.23, 13. OG, Seminarraum 13-02
(1) Mathis Tonn (2) May Bohmann (3) Bhawuk Verma (4) Svenja Christ, Chair: Sonal Rami
(1) tbd (2) Idealized Urban Simulations in ICON-CLM (3) Interplay of orography, aerosol concentration and secondary ice formation in contrasting island environments (4) tbd
CS, Geb. 30.23, 13. OG, Semianrraum 13-02
(1) Deepak Waman (2) Jasmin Haupt (3) Lisa Muth (4) Maryam Moradpour
(1) tbd (2) Assessing the representation of tropical-extratropical teleconnections in machine learning (ML) and numerical weather prediction (NWP) models for improving the S2S forecast skill (3) Coupling MieAI with RTTOV: Enhancing Radiative Transfer Simulations with AI-Derived Aerosol Properties (4) tbd