Early Detection of Extreme Storm Tide Events Using Multimodal Data Processing

Authors

  • Marcel Barros Universidade de São Paulo
  • Andressa Pinto Universidade de São Paulo
  • Andres Monroy Massachusetts Institute of Technology
  • Felipe Moreno Universidade de São Paulo
  • Jefferson Coelho Universidade de São Paulo
  • Aldomar Pietro Silva Universidade de São Paulo
  • Caio Fabricio Deberaldini Netto Universidade de São Paulo
  • José Roberto Leite Universidade de São Paulo
  • Marlon Mathias Universidade de São Paulo
  • Eduardo Tannuri Universidade de São Paulo
  • Artur Jordao Universidade de São Paulo
  • Edson Gomi Universidade de São Paulo
  • Fabio Cozman Universidade de São Paulo
  • Marcelo Dottori Universidade de São Paulo
  • Anna Helena Reali Costa Universidade de São Paulo

DOI:

https://doi.org/10.1609/aaai.v38i20.30194

Keywords:

General

Abstract

Sea-level rise is a well-known consequence of climate change. Several studies have estimated the social and economic impact of the increase in extreme flooding. An efficient way to mitigate its consequences is the development of a flood alert and prediction system, based on high-resolution numerical models and robust sensing networks. However, current models use various simplifying assumptions that compromise accuracy to ensure solvability within a reasonable timeframe, hindering more regular and cost-effective forecasts for various locations along the shoreline. To address these issues, this work proposes a hybrid model for multimodal data processing that combines physics-based numerical simulations, data obtained from a network of sensors, and satellite images to provide refined wave and sea-surface height forecasts, with real results obtained in a critical location within the Port of Santos (the largest port in Latin America). Our approach exhibits faster convergence than data-driven models while achieving more accurate predictions. Moreover, the model handles irregularly sampled time series and missing data without the need for complex preprocessing mechanisms or data imputation while keeping low computational costs through a combination of time encoding, recurrent and graph neural networks. Enabling raw sensor data to be easily combined with existing physics-based models opens up new possibilities for accurate extreme storm tide events forecast systems that enhance community safety and aid policymakers in their decision-making processes.
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Published

2024-03-24

How to Cite

Barros, M., Pinto, A., Monroy, A., Moreno, F., Coelho, J., Silva, A. P., Deberaldini Netto, C. F., Leite, J. R., Mathias, M., Tannuri, E., Jordao, A., Gomi, E., Cozman, F., Dottori, M., & Reali Costa, A. H. (2024). Early Detection of Extreme Storm Tide Events Using Multimodal Data Processing. Proceedings of the AAAI Conference on Artificial Intelligence, 38(20), 21923-21931. https://doi.org/10.1609/aaai.v38i20.30194

Issue

Vol. 38 No. 20: AAAI-24 Special Track AI for Social Impact, Senior Member Presentations, New Faculty Highlights, Journal Track

Section

AAAI Technical Track on AI for Social Impact Track