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- Title
Fuzzy logic based melting layer recognition from 3 GHz dual polarization radar: appraisal with NWP model and radio sounding observations.
- Authors
Islam, Tanvir; Rico-Ramirez, Miguel; Han, Dawei; Bray, Michaela; Srivastava, Prashant
- Abstract
The advent of polarimetry makes it possible to categorize hydrometeor inferences more accurately by providing detailed information of the scattering properties. In light of this, the authors have developed a fuzzy logic based system for the recognition of melting layer in the atmosphere. The fuzzy system is based on characterizing melting layer scatterers from non-melting scatterers using five crisp inputs, namely, horizontal reflectivity ( Z), differential reflectivity ( Z), co-polar correlation coefficient ( ρ), linear depolarization ratio (LDR) and height of radar measurements ( H). For the implementation of melting layer recognition, the study employs the dual polarized signatures from the 3 GHz Chilbolton Advanced Meteorological Radar (CAMRA). Furthermore, a simple but effective averaging procedure for melting level estimation from a volume RHI scan is proposed. The proposed scheme has been evaluated with Weather Research and Forecasting (WRF) model simulated and radio soundings retrieved melting level height over a total of 84 RHI scan-based bright band cases. The results confirm that the estimated melting level heights from the proposed method are in good agreement with the WRF model and radio sounding observations. The 3 GHz radar melting level height estimates correspond with the R and RMSE values of 0.92 and 0.24 km, respectively, when compared to the radio soundings, and 0.93 and 0.21 km, respectively, when compared to the WRF model results. Moreover, the related R and RMSE values are reported as 0.93 and 0.22 km respectively between the WRF and radio soundings retrievals. This implies that the downscaled WRF modelled melting level height may also be used for operational or research needs.
- Subjects
METEOROLOGICAL research; FUZZY logic; RADAR polarimetry; NUMERICAL weather forecasting; RAINFALL probabilities
- Publication
Theoretical & Applied Climatology, 2013, Vol 112, Issue 1-2, p317
- ISSN
0177-798X
- Publication type
Article
- DOI
10.1007/s00704-012-0721-z