ANALYSIS OF THE IMPACT OF RADAR DATA ASSIMILATION ON HAIL PREDICTION

ANALYSIS OF THE IMPACT OF RADAR DATA ASSIMILATION ON HAIL PREDICTION

Hail is one of the extreme weather phenomena that frequently occurs in Indonesia, with 215 recorded incidents from 2010 to 2023. This phenomenon causes damage to agriculture and property, leading to economic losses and injuries. Predicting hail events remains a challenge due to the limitations...

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Main Author: Sahnita Putri, Muhaji
Format: Theses
Language:Indonesia
Online Access:https://digilib.itb.ac.id/gdl/view/84084
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:84084
spelling id-itb.:840842024-08-14T07:51:04ZANALYSIS OF THE IMPACT OF RADAR DATA ASSIMILATION ON HAIL PREDICTION Sahnita Putri, Muhaji Indonesia Theses Hail, Weather Radar, Assimilation, Weather Research Forecasting Data Assimilation (WRFDA) INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/84084 Hail is one of the extreme weather phenomena that frequently occurs in Indonesia, with 215 recorded incidents from 2010 to 2023. This phenomenon causes damage to agriculture and property, leading to economic losses and injuries. Predicting hail events remains a challenge due to the limitations in observation and detection methods. Weather prediction improvements continue to be made, including combining observational data with previous short-term prediction results. Enhancing models with the assimilation of radar reflectivity and radial velocity can improve the initial conditions of water vapor and wind speed, potentially affecting the formation of convective clouds and subsequent rain. This study utilizes the regional numerical weather prediction model Weather Research and Forecasting Data Assimilation (WRFDA) with the 3DVar method. The assimilation data used are reflectivity and radial velocity data from the C-Band Weather Radar owned by BMKG in Surabaya and Medan. Hail in Surabaya is influenced by large-scale factors, while hail in Medan is influenced by local factors. Overall, this study demonstrates that radar data assimilation is better than without assimilation. However, there is sensitivity in the radar data assimilation process, where the best results in Surabaya are obtained by assimilating only reflectivity data, while in Medan, the best results are achieved by assimilating both reflectivity and radial velocity data. The best results, when calculated from the FSS, are obtained by the Surabaya experiment influenced by large-scale factors. The FSS value when assimilated with radar data reaches 0.7, whereas the worst FSS value without assimilation is only 0.1. The distribution of MESH values in hail cases in Surabaya and Medan shows the spatial accuracy of hail areas when using radar data assimilation compared to without assimilation. Specifically, the radar data assimilation experiment for hail in Surabaya can estimate MESH up to 10 mm with the observed MESH is around >10 mm. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
description Hail is one of the extreme weather phenomena that frequently occurs in Indonesia, with 215 recorded incidents from 2010 to 2023. This phenomenon causes damage to agriculture and property, leading to economic losses and injuries. Predicting hail events remains a challenge due to the limitations in observation and detection methods. Weather prediction improvements continue to be made, including combining observational data with previous short-term prediction results. Enhancing models with the assimilation of radar reflectivity and radial velocity can improve the initial conditions of water vapor and wind speed, potentially affecting the formation of convective clouds and subsequent rain. This study utilizes the regional numerical weather prediction model Weather Research and Forecasting Data Assimilation (WRFDA) with the 3DVar method. The assimilation data used are reflectivity and radial velocity data from the C-Band Weather Radar owned by BMKG in Surabaya and Medan. Hail in Surabaya is influenced by large-scale factors, while hail in Medan is influenced by local factors. Overall, this study demonstrates that radar data assimilation is better than without assimilation. However, there is sensitivity in the radar data assimilation process, where the best results in Surabaya are obtained by assimilating only reflectivity data, while in Medan, the best results are achieved by assimilating both reflectivity and radial velocity data. The best results, when calculated from the FSS, are obtained by the Surabaya experiment influenced by large-scale factors. The FSS value when assimilated with radar data reaches 0.7, whereas the worst FSS value without assimilation is only 0.1. The distribution of MESH values in hail cases in Surabaya and Medan shows the spatial accuracy of hail areas when using radar data assimilation compared to without assimilation. Specifically, the radar data assimilation experiment for hail in Surabaya can estimate MESH up to 10 mm with the observed MESH is around >10 mm.
format Theses
author Sahnita Putri, Muhaji
spellingShingle Sahnita Putri, Muhaji
ANALYSIS OF THE IMPACT OF RADAR DATA ASSIMILATION ON HAIL PREDICTION
author_facet Sahnita Putri, Muhaji
author_sort Sahnita Putri, Muhaji
title ANALYSIS OF THE IMPACT OF RADAR DATA ASSIMILATION ON HAIL PREDICTION
title_short ANALYSIS OF THE IMPACT OF RADAR DATA ASSIMILATION ON HAIL PREDICTION
title_full ANALYSIS OF THE IMPACT OF RADAR DATA ASSIMILATION ON HAIL PREDICTION
title_fullStr ANALYSIS OF THE IMPACT OF RADAR DATA ASSIMILATION ON HAIL PREDICTION
title_full_unstemmed ANALYSIS OF THE IMPACT OF RADAR DATA ASSIMILATION ON HAIL PREDICTION
title_sort analysis of the impact of radar data assimilation on hail prediction
url https://digilib.itb.ac.id/gdl/view/84084
_version_ 1822010258109759488

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