Litcius/Paper detail

Hurricane Forecasting: A Novel Multimodal Machine Learning Framework

Léonard Boussioux, Cynthia Zeng, Théo Guénais, Dimitris Bertsimas

2022Weather and Forecasting63 citationsDOIOpen Access PDF

Abstract

Abstract This paper describes a novel machine learning (ML) framework for tropical cyclone intensity and track forecasting, combining multiple ML techniques and utilizing diverse data sources. Our multimodal framework, called Hurricast, efficiently combines spatial–temporal data with statistical data by extracting features with deep learning encoder–decoder architectures and predicting with gradient-boosted trees. We evaluate our models in the North Atlantic and eastern Pacific basins in 2016–19 for 24-h lead-time track and intensity forecasts and show they achieve comparable mean absolute error and skill to current operational forecast models while computing in seconds. Furthermore, the inclusion of Hurricast into an operational forecast consensus model could improve upon the National Hurricane Center’s official forecast, thus highlighting the complementary properties with existing approaches. In summary, our work demonstrates that utilizing machine learning techniques to combine different data sources can lead to new opportunities in tropical cyclone forecasting. Significance Statement Machine learning techniques have not been fully explored for improving tropical cyclone movement and intensity changes. This work shows how advanced machine learning techniques combined with routinely available information can be used to improve 24-h tropical cyclone forecasts efficiently. The successes demonstrated for 24-h forecasts provide a recipe for improving predictions for longer lead times, further reducing forecast uncertainties and benefiting society.

Topics & Concepts

Computer scienceTropical cycloneTropical cyclone forecast modelMachine learningTrack (disk drive)Artificial intelligenceLead timeMeteorologyData miningGeographyMarketingOperating systemBusinessTropical and Extratropical Cyclones ResearchMeteorological Phenomena and SimulationsClimate variability and models