Affiliation:
1. Hong Kong Observatory, 134A Nathan Road, Kowloon, Hong Kong, China
Abstract
Hong Kong was under the direct hit of Severe Typhoon Koinu (2314) on 8 and 9 October 2023, necessitating the issuance of the Increasing Gale or Storm Signal, No. 9. Koinu was a very challenging case for TC forecasting and warning services due to its compact size and erratic movement over the northern part of the South China Sea. This paper reviews the difficulties and challenges of the forecasting aspect of the severe typhoon. The predicted tropical cyclone track and intensity from both conventional models and emerging artificial intelligence models are examined, as well as local wind and rainfall forecast. Experience in this case study showed that while deterministic global models only performed moderately and were not able to adequately support early warning, a regional model and AI models could more effectively support decision making for an operational tropical cyclone warning service.
Subject
Atmospheric Science,Environmental Science (miscellaneous)
Reference8 articles.
1. Lui, W.H., Lee, T.C., and Shun, C.M. (2018). Evolution of the Tropical Cyclone Warning Systems in Hong Kong Since 1884, Hong Kong Observatory. Technical Note No. 109.
2. Chan, P.W., He, Y.H., and Lui, Y.S. (2023). Super Typhoon Saola (2309) affecting Hong Kong in September 2023–Forecasting Aspect. Preprints, 2023091634.
3. He, J., Chan, P.W., Choy, C.W., Cheung, P., Chan, Y.W., Lam, C.C., He, Y.H., Rong, P., Su, H., and Li, Z. (2023). Multi-Platform Observations of Severe Typhoon Koinu (under processing). ESS Open Archive.
4. Chan, P.W., Choy, C.W., Mak, B., and He, J. (2023). A Rare Tropical Cyclone Necessitating the Issuance of Gale or Storm Wind Warning Signal in Hong Kong in Late Autumn in 2022—Severe Tropical Storm Nalgae. Atmosphere, 14.
5. Zhang, Y., Xu, D., Chen, Z., and Meng, W. (2022). Offline Diagnostics of Skin Sea Surface Temperature from a Prognostic Scheme and Its Application in Typhoon Forecasting Using the CMA-TRAMS Model over South China. Atmosphere, 13.
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