Litcius/Paper detail

Reduced non-Gaussianity by 30 s rapid update in convective-scale numerical weather prediction

Juan Ruiz, Guo‐Yuan Lien, Keiichi Kondo, Shigenori Otsuka, Takemasa Miyoshi

2021Nonlinear processes in geophysics14 citationsDOIOpen Access PDF

Abstract

Abstract. Non-Gaussian forecast error is a challenge for ensemble-based data assimilation (DA), particularly for more nonlinear convective dynamics. In this study, we investigate the degree of the non-Gaussianity of forecast error distributions at 1 km resolution using a 1000-member ensemble Kalman filter, and how it is affected by the DA update frequency and observation number. Regional numerical weather prediction experiments are performed with the SCALE (Scalable Computing for Advanced Library and Environment) model and the LETKF (local ensemble transform Kalman filter) assimilating phased array radar observations every 30 s. The results show that non-Gaussianity develops rapidly within convective clouds and is sensitive to the DA frequency and the number of assimilated observations. The non-Gaussianity is reduced by up to 40 % when the assimilation window is shortened from 5 min to 30 s, particularly for vertical velocity and radar reflectivity.

Topics & Concepts

Data assimilationEnsemble Kalman filterKalman filterNumerical weather predictionRadarMeteorologyGaussianConvectionComputer scienceNon-GaussianityStatistical physicsExtended Kalman filterPhysicsArtificial intelligenceOpticsAnisotropyTelecommunicationsQuantum mechanicsCosmic microwave backgroundMeteorological Phenomena and SimulationsClimate variability and modelsPrecipitation Measurement and Analysis