The added value of Himawari-8 satellite radiance data assimilation for very heavy rainfall prediction in the Indonesian Maritime Continent (Case study: East Kalimantan) Huda Abshor Mukhsinin (a*), Nurjanna Joko Trilaksono (a), I Wayan Gita Giriharta (a), Juni Tika Simanjuntak (a)
a) Faculty of Earth Sciences and Technology
Jalan Ganesha 10, Bandung 40132, Indonesia
*huda.mukhsinin[at]bmkg.go.id
Abstract
This study evaluates the impact of assimilating Advanced Himawari Imager (AHI) radiance data on the 8-10 water vapor channel using the three-dimensional variational (3DVAR) technique for the very heavy rainfall events in East Kalimantan on June 2-4, 2019. We utilized the Weather Research and Forecasting (WRF) and WRF Data Assimilation (WRFDA) system to run assimilation and prediction model simulations. To compare the assimilated model with AHI data and without assimilation, we devised two experimental schemes: 3DVAR and NODA. We assessed the enhancement in model prediction by comparing simulation results based on convection evolution, vertically integrated moisture flux convergence (VIMFC) increment, and rain prediction skill metrics, including Threat Score (TS), Equitable Threat Score (ETS), and Fractions Skill Score (FSS). Our findings suggest that the incorporation of AHI data results in a substantial improvement of the WRF model^s prediction of the very heavy rainfall events in East Kalimantan.
Keywords: Radiance Satellite- Data Assimilation- AHI- 3DVAR- 3DEnVar- WRFDA
