A Review of Artificial Neural Networks Applications in Maritime Industry

Assani, Nur; Matić, Petar; Kaštelan, Nediljko; Čavka, Ivan R.

doi:10.1109/access.2023.3341690

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2024

2025

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Cited by 5 publications

References 115 publications

(148 reference statements)

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Predicting a passenger ship's response during evasive maneuvers using Bayesian Learning

Gil,

Montewka,

Krata

2025

Reliability Engineering & System Safety

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Predicting a passenger ship's response during evasive maneuvers using Bayesian Learning

Gil,

Montewka,

Krata

2025

Reliability Engineering & System Safety

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Neural network model of ship magnetic signature for different measurement depths

Zielonacki,

Tarnawski

2024

2024 28th International Conference on Methods and Models in Automation and Robotics (MMAR)

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Studies on Submersible Short-Circuit Blowing Based on Orthogonal Experiments, Back Propagation Neural Network Prediction, and Pearson Correlation Analysis

He,

Huang,

Peng

et al. 2024

Applied Sciences

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Short-circuit blowing is a crucial technical approach for ensuring the rapid surfacing of submersibles. In order to investigate the law, L18(37) orthogonal experiments based on a proportional short-circuit blowing model test bench were conducted. Subsequently, a Back Propagation Neural Network (BPNN) and Pearson correlation analysis were employed to train the experimental data; further examination of the correlation between individual factors and blowing served as an enhancement to the orthogonal experiments. It has been proved that both multi-factor combinations and personal factors, including blowing duration, sea tank back pressure, gas blowing pressure from the cylinder group, and sea valve flowing area, exert significant influence with Pearson correlation coefficients of 0.6535, 0.8105, 0.5569, and 0.5373, respectively. Notably, the F-ratio for blowing duration exceeds the critical value of 3.24. The statistical evaluation metrics for the BPNN ranged from 10−1 to 10−12, with relative errors below 3%, and achieving a prediction accuracy rate of 100%. Based on these findings, a robust predictive methodology for submersible short-circuit blowing has been established along with recommendations for engineering design and operational strategies that highlight its advantages as well as its initial condition settings.

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A Review of Artificial Neural Networks Applications in Maritime Industry

Cited by 5 publications

References 115 publications

Predicting a passenger ship's response during evasive maneuvers using Bayesian Learning

Predicting a passenger ship's response during evasive maneuvers using Bayesian Learning

Neural network model of ship magnetic signature for different measurement depths

Studies on Submersible Short-Circuit Blowing Based on Orthogonal Experiments, Back Propagation Neural Network Prediction, and Pearson Correlation Analysis

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