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Dual-Branched Spatio-Temporal Fusion Network for Multihorizon Tropical Cyclone Track Forecast

Zili Liu, Kun Hao, Xiaoyi Geng, Zhengxia Zou, Zhenwei Shi

2022IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing39 citationsDOIOpen Access PDF

Abstract

A tropical cyclone (TC) is a typical extreme tropical weather system, which could cause serious disasters in transit areas. Accurate TC track forecasting is the key to reducing casualties and damages, however, long-term forecasting of TCs is a challenging problem due to their extremely high dynamics and uncertainty. Existing TC track forecasting methods mainly focus on utilizing a single modality of source data, meanwhile, suffer from limited long-term forecasting capability and high computational complexity. In this article, we propose to address the abovementioned challenges from a new perspective—by utilizing large-scale spatio-temporal multimodal historical data and advanced deep learning techniques. A novel multihorizon TC track forecasting model named dual-branched spatio-temporal fusion network (DBF-Net) is proposed and evaluated. DBF-Net contains a TC features branch that extracts temporal features from 2-D state vectors and a pressure field branch that extracts spatio-temporal features from reanalysis 3-D pressure field. We show that with the abovementioned design, DBF-Net can fully exploit the implicit associations of multimodal data, achieving advantages that unimodal data-based method does not have. Extensive experiments on 39 years of historical TCs track data in the Northwest Pacific show that our DBF-Net achieves significant accuracy improvement compared with previous TCs track forecast methods.

Topics & Concepts

Computer scienceTropical cycloneExploitDeep learningTrack (disk drive)Field (mathematics)Artificial neural networkKey (lock)Data miningArtificial intelligenceMeteorologyGeographyMathematicsPure mathematicsOperating systemComputer securityTropical and Extratropical Cyclones ResearchMeteorological Phenomena and SimulationsClimate variability and models
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