Litcius/Paper detail

A Generalized Dual-Frequency Ratio (DFR) Approach for Rain Retrievals

R. Meneghini, Liang Liao, Toshio Iguchi

2022Journal of Atmospheric and Oceanic Technology14 citationsDOI

Abstract

Abstract The dual-frequency ratio of radar reflectivity factors (DFR) has been shown to be a useful quantity as it is independent of the number concentration of the particle size distribution and primarily a function of the mass-weighted particle diameter D m . A drawback of DFR-related methods for rain estimation, however, is the nonunique relationship between D m and DFR. At Ku- and Ka-band frequencies, two solutions for D m exist when DFR is less than zero. This ambiguity generates multiple solutions for the range profiles of the particle size parameters. We investigate characteristics of these solutions for both the initial-value (forward) and final-value (backward) forms of the equations. To choose one among many possible range profiles of D m , number concentration, and rain rate R , independently measured path attenuations are used. For the backward approach, the possibility exists of dispensing with externally measured path attenuations by achieving consistency between the input and output path attenuations. The methods are tested by means of a simulation based on disdrometer-measured raindrop size distributions and the results are compared with a simplified version of the operational R – D m method.

Topics & Concepts

DisdrometerRange (aeronautics)Consistency (knowledge bases)MathematicsPath (computing)RadarDistribution (mathematics)StatisticsMathematical analysisComputer scienceGeometryTelecommunicationsMaterials scienceComposite materialProgramming languageRain gaugePrecipitation Measurement and AnalysisSoil Moisture and Remote SensingIcing and De-icing Technologies