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- Title
Improved Estimation of the Specific Attenuation and Backscatter Differential Phase over Short Rain Paths.
- Authors
Reinoso-Rondinel, Ricardo; Unal, Christine; Russchenberg, Herman
- Abstract
In radar polarimetry, the differential phase Ψ DP consists of the propagation differential phase Φ DP and the backscatter differential phase δ hv . While Φ DP is commonly used for attenuation correction (i.e., estimation of the specific attenuation A and specific differential phase K DP ), recent studies have demonstrated that δ hv can provide information concerning the dominant size of raindrops. However, the estimation of Φ DP and δ hv is not straightforward given their coupled nature and the noisy behavior of Ψ DP , especially over short paths. In this work, the impacts of estimating Φ DP on the estimation of A over short paths, using the extended version of the ZPHI method, are examined. Special attention is given to the optimization of the parameter α that connects K DP and A. In addition, an improved technique is proposed to compute δ hv from Ψ DP and Φ DP in rain. For these purposes, diverse storm events observed by a polarimetric X-band radar in the Netherlands are used. Statistical analysis based on the minimum errors associated with the optimization of α and the consistency between K DP and A showed that more accurate and stable α and A are obtained if Φ DP is estimated at range resolution, which is not possible by conventional range filtering techniques. Accurate δ hv estimates were able to depict the spatial variability of dominant raindrop size in the observed storms. By following the presented study, the ZPHI method and its variations can be employed without the need for considering long paths, leading to localized and accurate estimation of A and δ hv .
- Subjects
NETHERLANDS; RADAR polarimetry; RAINDROPS; MATHEMATICAL optimization; STORMS; STATISTICS
- Publication
Journal of Atmospheric & Oceanic Technology, 2018, Vol 35, Issue 12, p2359
- ISSN
0739-0572
- Publication type
Article
- DOI
10.1175/JTECH-D-17-0219.1