Topics
MelbournePlace
disdrometerAgent
thunderstormPerson
hydrometeorRiver
radar meteorologyBroadcast network
atmospheric dragMilitary unit
advectionOrganisation
WSR-88DBroadcaster
weather radarBroadcast network
updraftPerson
radarBroadcast network
Rainfall drop size distribution (DSD) measurements made by single disdrometers at isolated ground sites have traditionally been used to estimate the transformation between weather radar reflectivity Z and rainfall rate R. Despite the immense disparity in sampling geometries, the resulting Z-R relation obtained by these single point measurements has historically been important in the study of applied radar meteorology. Simultaneous DSD measurements made at several ground sites within a microscale area may be used to improve the estimate of radar reflectivity in the air volume surrounding the disdrometer array. By applying the equations of motion for non-interacting hydrometeors, a volume estimate of Z is obtained from the array of ground bas...
Radar is an indispensable tool in the observation, analysis, and prediction of weather. The Weather ...
In the issue of rainfall estimation by radar through the necessary relationship between radar reflec...
Weather radar capabilities have improved dramatically over the last 50 years. Following World War II...
Rainfall drop size distribution (DSD) measurements made by single disdrometers at isolated ground si...
Rainfall drop size distribution (DSD) measurements made by single disdrometers at isolated ground si...
The use of meteorological radar reflectivity Z to estimate rainfall rate R is approached using a dif...
Knowledge of the raindrop size distribution (DSD) is essential for understanding the physics of prec...
Relations to estimate, from radar measurements, precipitation (e.g., rainfall rate or liquid water c...
Raindrop size distributions (DSDs) play a crucial role in quantitative rainfall estimation using wea...
Climatological radar algorithms that diagnose rain rates from radar reflectivity are derived from ra...
Using a matrix of drop size distributions (DSDs), measured by a microscale array of disdrometers, a ...
The retrieval of raindrop size distribution (DSD) from dual frequency precipitation radar (DPR) on b...
Acquiring the raindrop size distribution from radar data is still a challenge. Generally this distri...
The raindrop size distribution (DSD) is fundamental for quantitative precipitation estimation (QPE) ...
The rain drop size distribution (DSD) and its appropriate parameterisation plays an important role i...
Radar is an indispensable tool in the observation, analysis, and prediction of weather. The Weather ...
In the issue of rainfall estimation by radar through the necessary relationship between radar reflec...
Weather radar capabilities have improved dramatically over the last 50 years. Following World War II...
Rainfall drop size distribution (DSD) measurements made by single disdrometers at isolated ground si...
Rainfall drop size distribution (DSD) measurements made by single disdrometers at isolated ground si...
The use of meteorological radar reflectivity Z to estimate rainfall rate R is approached using a dif...
Knowledge of the raindrop size distribution (DSD) is essential for understanding the physics of prec...
Relations to estimate, from radar measurements, precipitation (e.g., rainfall rate or liquid water c...
Raindrop size distributions (DSDs) play a crucial role in quantitative rainfall estimation using wea...
Climatological radar algorithms that diagnose rain rates from radar reflectivity are derived from ra...
Using a matrix of drop size distributions (DSDs), measured by a microscale array of disdrometers, a ...
The retrieval of raindrop size distribution (DSD) from dual frequency precipitation radar (DPR) on b...
Acquiring the raindrop size distribution from radar data is still a challenge. Generally this distri...
The raindrop size distribution (DSD) is fundamental for quantitative precipitation estimation (QPE) ...
The rain drop size distribution (DSD) and its appropriate parameterisation plays an important role i...
Radar is an indispensable tool in the observation, analysis, and prediction of weather. The Weather ...
In the issue of rainfall estimation by radar through the necessary relationship between radar reflec...
Weather radar capabilities have improved dramatically over the last 50 years. Following World War II...
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