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A framework of a data-driven model for ship performance

Alessandro La Ferlita, Yan Qi, Emanuel Di Nardo, Ould el Moctar, Thomas E. Schellin, Angelo Ciaramella

2024Ocean Engineering21 citationsDOIOpen Access PDF

Abstract

An accurate assessment of a ship's required power is increasingly relevant for ship operations. We used a simplified framework of a data-driven model to predict ship's fuel consumption. Our approach was based on the learning capabilities of a generalized AutoML (Automated Machine Learning) process, trained with a variety of databases obtained from Computational-Fluid-Dynamics (CFD) simulations or from simplified numerical methods. These CFD simulations were conducted by solving the Reynolds Averaged Navier-Stokes (RANS) equations, using the STARCCM + commercial CFD software to calculate the ship resistance at speed under different operating conditions. Initially, we conducted a statistical analysis to select the independent variables before fitting the regression models and identifying potentially wrong assumptions. The AutoML process allowed optimizing the model's hyperparameters and designing the topology of the neural networks. For a set of unknown scenarios, comparative predictions obtained from the data-driven model and from numerical simulations showed that the data-driven model, trained with results obtained from CFD simulations, accurately and efficiently predicted ship operational parameters under realistic operating conditions, thereby dispensing with the need to perform elaborate CFD computations. Specifically, this low-cost and efficient operational data-driven technique forecasted the ship's operational fuel consumption although only a limited amount of recorded operational data was available. • Low-cost and efficient operational data-driven technique to forecast the ship's operational fuel consumption although limited amount of data. • Application of AutoML algorithm allows easy data processing and optimization of hyperparameters while generating the model. • AUTOML model enabled capturing the physical simulated tested scenarios, highlighting the advantages in terms of computational effort.

Topics & Concepts

Marine engineeringComputer scienceEngineeringSystems engineeringMaritime Transport Emissions and EfficiencyMaritime Navigation and SafetyShip Hydrodynamics and Maneuverability