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DAME D oppler Effect Modelling for A ir M otion E stimates

DAME D oppler Effect Modelling for A ir M otion E stimates. DAME consortium members Pavlos Kollias (McGill) Aleksandra Tatarevic (McGill) Wanda Szyrmer (McGill) A. Battaglia (Bonn/Leicester) Marco Milan (Bonn) Juan Acarreta (Deimos). Prepare by McGill University, University of Bonn,

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DAME D oppler Effect Modelling for A ir M otion E stimates

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  1. DAMEDoppler Effect Modelling for Air Motion Estimates DAME consortium members Pavlos Kollias (McGill) Aleksandra Tatarevic (McGill) Wanda Szyrmer (McGill) A. Battaglia (Bonn/Leicester) Marco Milan (Bonn) Juan Acarreta (Deimos) Prepare by McGill University, University of Bonn, and Deimos Space Overview

  2. Consortium and Roles External participation of Dr Simone Tanelli (JPL)

  3. Deliverables – Expected Outcome • State-of-the-art instrument and forward models for spaceborne Doppler radars suitable to simulate: • a breath of spaceborne Doppler radar configurations including scanning and advance signal processing schemes • complex atmospheric/surface scenes from tranquil stratiform clouds to vigorous deep convection over water or variable land type surfaces • Retrieval models suitable for Doppler motion correction due to antenna mispointing and “target” ID • Doppler performance study for planned (EarthCARE) and future spaceborne Doppler radar missions • All models will be integrated in the EarthCARE Simulator and distributed (via ESA) as a community tool for algorithm development and future feasibility/engineering trade off studies

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