Add to ORKGThe vertical profile of raindrop size distribution (DSD) is important for understanding rain formation processes. To improve the accuracy of rainfall intensity observed b
International audienceModels of coalescence and breakup lead to equilibrium of the raindrop size dis...
(1) Raindrop size distribution (DSD) is a vital microphysical characteristic of clouds and precipita...
Accurate characterization of raindrop size distributions (RSD) is critical to many applications in a...
The vertical profile of raindrop size distribution (DSD) is important for understanding rain formati...
Measurements of raindrop size distribution (DSD) are crucial for understanding rain formation proces...
The vertical profile of raindrop size distribution (DSD) is important for understanding rain process...
185-196 A new approach is proposed to retrieve the rain drop size distribution (RDSD) by the combine...
319-327This paper describes research on a new form of gamma drop size distribution (DSD) model that...
Information about the drop size distribution (DSD) is essential for understanding precipitation phys...
15th MST Radar WorkshopSession M5: Meteorology and forecasting/nowcastingMay 30 (Tue), NIPR Auditori...
Doppler spectra from vertically profiling radars are usually considered to retrieve the raindrop siz...
© 2004 American Meteorological SocietyThe retrieval of raindrop size distributions (DSDs) in precipi...
The selection of the drop size distribution (DSD) model is one of the critical steps in rain profili...
Climatological radar algorithms that diagnose rain rates from radar reflectivity are derived from ra...
The raindrop size distribution (DSD) is fundamental for quantitative precipitation estimation (QPE) ...
International audienceModels of coalescence and breakup lead to equilibrium of the raindrop size dis...
(1) Raindrop size distribution (DSD) is a vital microphysical characteristic of clouds and precipita...
Accurate characterization of raindrop size distributions (RSD) is critical to many applications in a...
The vertical profile of raindrop size distribution (DSD) is important for understanding rain formati...
Measurements of raindrop size distribution (DSD) are crucial for understanding rain formation proces...
The vertical profile of raindrop size distribution (DSD) is important for understanding rain process...
185-196 A new approach is proposed to retrieve the rain drop size distribution (RDSD) by the combine...
319-327This paper describes research on a new form of gamma drop size distribution (DSD) model that...
Information about the drop size distribution (DSD) is essential for understanding precipitation phys...
15th MST Radar WorkshopSession M5: Meteorology and forecasting/nowcastingMay 30 (Tue), NIPR Auditori...
Doppler spectra from vertically profiling radars are usually considered to retrieve the raindrop siz...
© 2004 American Meteorological SocietyThe retrieval of raindrop size distributions (DSDs) in precipi...
The selection of the drop size distribution (DSD) model is one of the critical steps in rain profili...
Climatological radar algorithms that diagnose rain rates from radar reflectivity are derived from ra...
The raindrop size distribution (DSD) is fundamental for quantitative precipitation estimation (QPE) ...
International audienceModels of coalescence and breakup lead to equilibrium of the raindrop size dis...
(1) Raindrop size distribution (DSD) is a vital microphysical characteristic of clouds and precipita...
Accurate characterization of raindrop size distributions (RSD) is critical to many applications in a...