Earth and Space Science (Mar 2024)

Machine Learning‐Based Wave Model With High Spatial Resolution in Chesapeake Bay

  • Jian Shen,
  • Zhengui Wang,
  • Jiabi Du,
  • Yinglong J. Zhang,
  • Qubin Qin

DOI
https://doi.org/10.1029/2023EA003303
Journal volume & issue
Vol. 11, no. 3
pp. n/a – n/a

Abstract

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Abstract A high‐resolution wave model is crucial for accurate modeling of sediment and organic material transports, but its computational costs hinder direct coupling to an ecosystem model. We developed a machine learning model using long short‐term memory to simulate large‐scale, high‐resolution waves. Trained with numerical wave model (NWM) outputs and wind data from nine locations, our model successfully replicates NWM results for daily mean significant wave height and period in Chesapeake Bay with identical spatial resolution. Compared to the NWM, the data‐driven model has root‐mean‐square errors below 6 cm for daily mean significant wave height and 1 s for the wave period in the bay. It demonstrates excellent model skills and can accurately forecast daily mean significant wave height and period at NOAA wave stations comparable to NWMs. Using minimal wind data and having a short runtime, our data‐driven model shows promise as an alternative for wave forecasting and coupling with sediment and ecological models.

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