Estimation of tropical cyclone (TC) rainfall risk in South Korea using the integrated <scp>TC</scp> track and <scp>semi‐physical</scp> TC rainfall models

Alcantara, Angelika L.; Ahn, Kuk‐Hyun

doi:10.1002/joc.8001

Cited by 3 publications

(1 citation statement)

References 55 publications

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“…Approximately one year later, Cyclone Nicholas occurred between 11-20 February 2008 and cyclone Marcus on 14-27 March 2018 (Ningsih et al, 2020). Cyclone Nicholas had a tremendous impact as it made landfall by hitting Western Australia (Alcantara and Ahn, 2023). The impact was felt not only in Australia, but also across Indonesia (Ningsih et al, 2020;Amaral et al, 2023).…”

Section: Introductionmentioning

confidence: 99%

Investigation of the Development of Tropical Storm Nicholas based on Global and Regional Climate Data

Wahyuni,

Shabrina,

Lobma

et al. 2023

For. Geo.

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This paper studies the simulation of Cyclone Nicholas that occurred close to the coastal area of Western Australia and fell on the mainland of Southwestern Australia. The simulation was conducted via a dynamical downscaling model, Weather Research and Forecasting (WRF), to obtain a higher resolution with reference to the regional climate data. The model simulation is generated using a global reanalysis of climate data for the initial and lateral boundary conditions. We investigated the response of the tropical storm to the model regarding the track and intensity using a modified Kyklop method that appears more appropriate for a landfall cyclone. Our study suggests that the regional climate data computed by the model deviates from the storm track of the global climate data forcing field. In this study, the track of the simulated storm is parallel to the satellite data, but it is shifted slightly to the east, closer to the mainland. Nevertheless, the model simulation can implement the intensity of the storm as strongly as the observation, while the forcing data delivers substantial underestimation.

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Section: Introductionmentioning

confidence: 99%

Investigation of the Development of Tropical Storm Nicholas based on Global and Regional Climate Data

Wahyuni,

Shabrina,

Lobma

et al. 2023

For. Geo.

View full text Add to dashboard Cite

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Enhanced rainfall nowcasting of tropical cyclone by an interpretable deep learning model and its application in real-time flood forecasting

Liu,

Liang,

et al. 2024

Journal of Hydrology

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A North Atlantic synthetic tropical cyclone track, intensity, and rainfall dataset

Xu,

Balaguru,

Judi

et al. 2024

Sci Data

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Tropical Cyclones (TCs) cause significant socio-economic damages to the US and Caribbean coastal regions annually, making it important to understand TC risk at the local-to-regional scales. However, the short length of the observed record and the substantial computational expense associated with high-resolution climate models make it difficult to assess TC risk using either approach. To overcome these challenges, we developed a database of synthetic TCs using the Risk Analysis Framework for Tropical Cyclones (RAFT). The database includes 40,000 synthetic TC tracks, along-track intensities and storm-induced precipitation. TC tracks generated in RAFT are in reasonable agreement with the observed spatial distribution of TC tracks and basin-scale TC statistics. Specifically along the coast, spatial variations in TC crossing probability and extreme winds upon landfall are well-reproduced by RAFT with R-squared values of 0.81 and 0.73, respectively. In summary, the synthetic TC database constructed with RAFT provides a reasonable pathway for the robust assessment of North Atlantic TC wind and rainfall risks.

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Estimation of tropical cyclone (TC) rainfall risk in South Korea using the integrated TC track and semi‐physical TC rainfall models

Cited by 3 publications

References 55 publications

Investigation of the Development of Tropical Storm Nicholas based on Global and Regional Climate Data

Investigation of the Development of Tropical Storm Nicholas based on Global and Regional Climate Data

Enhanced rainfall nowcasting of tropical cyclone by an interpretable deep learning model and its application in real-time flood forecasting

A North Atlantic synthetic tropical cyclone track, intensity, and rainfall dataset

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