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Typhoon Intensity Forecasting Based on LSTM Using the Rolling Forecast Method

Shijin Yuan, Cheng Wang, Bin Mu, Feifan Zhou, Wansuo Duan

2021Algorithms53 citationsDOIOpen Access PDF

Abstract

A typhoon is an extreme weather event with strong destructive force, which can bring huge losses of life and economic damage to people. Thus, it is meaningful to reduce the prediction errors of typhoon intensity forecasting. Artificial and deep neural networks have recently become widely used for typhoon forecasting in order to ensure typhoon intensity forecasting is accurate and timely. Typhoon intensity forecasting models based on long short-term memory (LSTM) are proposed herein, which forecast typhoon intensity as a time series problem based on historical typhoon data. First, the typhoon intensity forecasting models are trained and tested with processed typhoon data from 2000 to 2014 to find the optimal prediction factors. Then, the models are validated using the optimal prediction factors compared to a feed-forward neural network (FNN). As per the results of the model applied for typhoons Chan-hom and Soudelor in 2015, the model based on LSTM using the optimal prediction factors shows the best performance and lowest prediction errors. Thus, the model based on LSTM is practical and meaningful for predicting typhoon intensity within 120 h.

Topics & Concepts

TyphoonArtificial neural networkIntensity (physics)Computer scienceMeteorologyArtificial intelligenceMachine learningEnvironmental scienceGeographyPhysicsQuantum mechanicsTropical and Extratropical Cyclones ResearchOcean Waves and Remote SensingFlood Risk Assessment and Management
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