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Combining Conv-LSTM and wind-wave data for enhanced sea wave forecasting in the Mediterranean Sea

Pietro Scala, Giorgio Manno, Emanuele Ingrassia, Giuseppe Ciraolo

2025Ocean Engineering15 citationsDOIOpen Access PDF

Abstract

This study presents an application of a stateful Convolutional Long Short-Term Memory (Conv-LSTM) model for wave forecasting in the Mediterranean Sea. By leveraging bathymetric data and wind fields, the model predicts key oceanographic variables such as significant wave height ( H s ), peak period ( T p ), and wave direction ( θ ). By incorporating wave buoy measurements into the training data, the Conv-LSTM model effectively captures both spatial and temporal dynamics, particularly in regions characterised by complex wind-wave interactions. While the model shows high accuracy in predicting short-term wave variability, especially in central Mediterranean areas, it exhibits limitations in coastal regions under extreme weather conditions, where local factors and missing variables (e.g., air pressure, air temperature) reduce its accuracy (from 90% to 78%). Validation of measured data confirms the potential of the model to improve operational forecasting, maritime safety, and offshore engineering projects and highlights the need for improving spatial resolution and the inclusion of additional meteorological inputs for future applications.

Topics & Concepts

Mediterranean seaWind wave modelWind waveClimatologyMeteorologyGeologyOceanographyWave modelMediterranean climateEnvironmental scienceHistoryGeographyArchaeologyOcean Waves and Remote SensingOceanographic and Atmospheric ProcessesTropical and Extratropical Cyclones Research
Combining Conv-LSTM and wind-wave data for enhanced sea wave forecasting in the Mediterranean Sea | Litcius