Kyung-Eak Kim scite author profile

This paper contains a description of the most recent version of the hydrometeor classification algorithm for polarimetric Weather Surveillance Radar-1988 Doppler (WSR-88D). This version contains several modifications and refinements of the previous echo classification algorithm based on the principles of fuzzy logic. These modifications include the estimation of confidence factors that characterize the possible impacts of all error sources on radar measurements, the assignment of the matrix of weights that characterizes the classification power of each variable with respect to every class of radar echo, and the implementation of a class designation system based on the distance from the radar and the parameters of the melting layer that are determined as functions of azimuth with polarimetric radar measurements. These additions provide considerable flexibility and improve the discrimination between liquid and frozen hydrometeors. The new classification scheme utilizes all available polarimetric variables and discerns 10 different classes of radar echoes. Furthermore, a methodology for the new fuzzy logic classification scheme is discussed and the results are illustrated using polarimetric radar data collected with the Norman, Oklahoma (KOUN), WSR-88D prototype radar during a mesoscale convective system event on 13 May 2005.

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Identification and Removal of Ground Echoes and Anomalous Propagation Using the Characteristics of Radar Echoes

Cho

Lee

Kim

et al. 2006

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This paper explores the removal of normal ground echoes (GREs) and anomalous propagation (AP) in ground-based radars using a fuzzy logic approach. Membership functions and their weights are derived from the characteristics of radar echoes as a function of radar reflectivity. The dependence on echo intensity is shown to significantly improve the proper identification of GRE/AP. In addition, the proposed method has a better performance at lower elevation angles. The overall performance is comparable with that from a polarimetric approach and can thus be easily implemented in operational radars.

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Spectral Absorption of Solar Radiation in Cloudy Atmospheres: A 20 cm⁻¹Model

1984

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A Preliminary Analysis of Spatial Variability of Raindrop Size Distributions during Stratiform Rain Events

Lee

Zawadzki

et al. 2009

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The spatial variability of raindrop size distributions (DSDs) and precipitation fields is investigated utilizing disdrometric measurements from the four Precipitation Occurrence Sensor Systems (POSS) and radar reflectivity fields from S-band dual-polarization radar and vertically pointing X-band radar. The spatial cross correlation of the moments of DSDs, their ratio, error in rainfall estimate, and normalization parameters are quantified using a ''noncentered'' correlation function. The time-averaged spatial autocorrelation function of observed radar reflectivity factor (Z e ) is smaller than that of estimated rainfall rate from Z e because of powerlaw R-Z transformation with its exponent larger than unity. The important spatial variability of DSDs and rain integral fields is revealed by the significant differences among average DSDs and leads to an average fractional error of 25% in estimating rainfall accumulation during an event. The spatial correlation of the reflectivity from POSS is larger than that of Z e because of larger measurement noise in Z e . The higher moments of DSDs are less correlated in space than lower moments. The correlation of rainfall estimate error is higher than that of estimated rainfall rate and of rainfall rate calculated from DSDs. The correlation of the characteristic number density is low (0.87 at 1.3-km distance), suggesting that the assumed homogeneity of the characteristic number density in space could result in larger errors in the retrieval of DSDs and rainrelated parameters. However, the characteristic diameter is highly correlated in space.

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Use of the Doppler Spectral Width to Improve the Estimation of the Convective Boundary Layer Height from UHF Wind Profiler Observations

Heo¹,

Jacoby-Koaly²,

Kim³

et al. 2003

J. Atmos. Oceanic Technol.

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Kyung-Eak Kim

The Hydrometeor Classification Algorithm for the Polarimetric WSR-88D: Description and Application to an MCS

Identification and Removal of Ground Echoes and Anomalous Propagation Using the Characteristics of Radar Echoes

Spectral Absorption of Solar Radiation in Cloudy Atmospheres: A 20 cm⁻¹Model

A Preliminary Analysis of Spatial Variability of Raindrop Size Distributions during Stratiform Rain Events

Use of the Doppler Spectral Width to Improve the Estimation of the Convective Boundary Layer Height from UHF Wind Profiler Observations

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About

Kyung-Eak Kim

The Hydrometeor Classification Algorithm for the Polarimetric WSR-88D: Description and Application to an MCS

Identification and Removal of Ground Echoes and Anomalous Propagation Using the Characteristics of Radar Echoes

Spectral Absorption of Solar Radiation in Cloudy Atmospheres: A 20 cm−1Model

A Preliminary Analysis of Spatial Variability of Raindrop Size Distributions during Stratiform Rain Events

Use of the Doppler Spectral Width to Improve the Estimation of the Convective Boundary Layer Height from UHF Wind Profiler Observations

Contact Info

Product

Resources

About

Spectral Absorption of Solar Radiation in Cloudy Atmospheres: A 20 cm⁻¹Model