Frontiers in Big Data (Jan 2020)

Tropical Cyclone Track Forecasting Using Fused Deep Learning From Aligned Reanalysis Data

  • Sophie Giffard-Roisin,
  • Sophie Giffard-Roisin,
  • Mo Yang,
  • Guillaume Charpiat,
  • Christina Kumler Bonfanti,
  • Balázs Kégl,
  • Claire Monteleoni

DOI
https://doi.org/10.3389/fdata.2020.00001
Journal volume & issue
Vol. 3

Abstract

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The forecast of tropical cyclone trajectories is crucial for the protection of people and property. Although forecast dynamical models can provide high-precision short-term forecasts, they are computationally demanding, and current statistical forecasting models have much room for improvement given that the database of past hurricanes is constantly growing. Machine learning methods, that can capture non-linearities and complex relations, have only been scarcely tested for this application. We propose a neural network model fusing past trajectory data and reanalysis atmospheric images (wind and pressure 3D fields). We use a moving frame of reference that follows the storm center for the 24 h tracking forecast. The network is trained to estimate the longitude and latitude displacement of tropical cyclones and depressions from a large database from both hemispheres (more than 3,000 storms since 1979, sampled at a 6 h frequency). The advantage of the fused network is demonstrated and a comparison with current forecast models shows that deep learning methods could provide a valuable and complementary prediction. Moreover, our method can give a forecast for a new storm in a few seconds, which is an important asset for real-time forecasts compared to traditional forecasts.

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