Adaptive radar approaches for Doppler moments estimation
A. Pappas (TU Delft - Microwave Sensing, Signals & Systems)
T.K. Dash (TU Delft - Microwave Sensing, Signals & Systems)
Alexander Yarovoy (TU Delft - Microwave Sensing, Signals & Systems)
F. Fioranelli (TU Delft - Microwave Sensing, Signals & Systems)
S.S.A. Sardar (TU Delft - Atmospheric Remote Sensing)
M.A. Schleiss (TU Delft - Atmospheric Remote Sensing)
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Abstract
To characterize atmospheric turbulence, the Doppler moments are estimated by weather radars. However, moment accuracy is highly sensitive to radar transmission parameters such as pulse repetition time (Ts) and number of pulses (Np), which affect Doppler ambiguity and estimation variance. Traditional fixed-parameter radars face trade-offs between aliasing and measurement precision. This paper proposes an adaptive radar framework that dynamically adjusts Ts and Np on a per-scan basis to improve Doppler moment estimation at a single resolution cell level. Inspired by the Fully Adaptive Radar (FAR) concept, the method also includes a novel multi-lag Doppler width estimation scheme. Results demonstrate enhanced estimation accuracy, enabling better responsiveness to localized and non-stationary weather conditions.
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File under embargo until 19-06-2026