Artificial neural network based prediction of ship speed under operating conditions for operational optimization
Artificial neural network based prediction of ship speed under operating conditions for operational optimization
Ship speed is one of the most fundamental parameters which influences ship design, the energy efficiency of its operation, and safety. Therefore, ship speed selection and prediction under various environmental and operational conditions are of great concern recently for optimizing ship design and operational performance. Among the different approaches that address the ship speed topic, data-driven methodologies and Artificial Neural Network (ANN) techniques are attracting widespread interest due to its efficiency, accuracy, robustness, flexibility, and fault tolerance. Consequently, this study investigates multiple ANN model sizes and architectures to determine the suitable network parameters for ship speed prediction. Thus, we have a good balance between the model’s prediction accuracy and computational complexity. For this study, a publicly-available high-quality operational dataset suitable for benchmarking the results is utilized. This analysis also includes the effect of the data quantity and sampling duration on the data correlation and the ANN performance. The results indicate that the proposed ANN model can accurately predict ship speed under real operational conditions with an error of less than 1 knot. Furthermore, it has been shown that the proposed model can help with the decision-making and optimization processes of voyages planning and execution.
artificial neural network, data-driven model, machine learning,, matlab, ship speed prediction,, Machine learning, Artificial neural network, Data-driven model, Ship speed prediction, MATLAB
Bassam, Ameen
0495bb1e-486d-4a8a-8740-b3e7ad59fa66
Phillips, Alexander
f565b1da-6881-4e2a-8729-c082b869028f
Turnock, Stephen
d6442f5c-d9af-4fdb-8406-7c79a92b26ce
Wilson, Philip
8307fa11-5d5e-47f6-9961-9d43767afa00
15 June 2023
Bassam, Ameen
0495bb1e-486d-4a8a-8740-b3e7ad59fa66
Phillips, Alexander
f565b1da-6881-4e2a-8729-c082b869028f
Turnock, Stephen
d6442f5c-d9af-4fdb-8406-7c79a92b26ce
Wilson, Philip
8307fa11-5d5e-47f6-9961-9d43767afa00
Bassam, Ameen, Phillips, Alexander, Turnock, Stephen and Wilson, Philip
(2023)
Artificial neural network based prediction of ship speed under operating conditions for operational optimization.
Elsevier Ocean Engineering Series, 278, [114613].
(doi:10.1016/j.oceaneng.2023.114613).
Abstract
Ship speed is one of the most fundamental parameters which influences ship design, the energy efficiency of its operation, and safety. Therefore, ship speed selection and prediction under various environmental and operational conditions are of great concern recently for optimizing ship design and operational performance. Among the different approaches that address the ship speed topic, data-driven methodologies and Artificial Neural Network (ANN) techniques are attracting widespread interest due to its efficiency, accuracy, robustness, flexibility, and fault tolerance. Consequently, this study investigates multiple ANN model sizes and architectures to determine the suitable network parameters for ship speed prediction. Thus, we have a good balance between the model’s prediction accuracy and computational complexity. For this study, a publicly-available high-quality operational dataset suitable for benchmarking the results is utilized. This analysis also includes the effect of the data quantity and sampling duration on the data correlation and the ANN performance. The results indicate that the proposed ANN model can accurately predict ship speed under real operational conditions with an error of less than 1 knot. Furthermore, it has been shown that the proposed model can help with the decision-making and optimization processes of voyages planning and execution.
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Artificial neural network based prediction of ship speed under operating conditions for operational optimization
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Accepted/In Press date: 16 April 2023
e-pub ahead of print date: 27 April 2023
Published date: 15 June 2023
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Publisher Copyright:
© 2023 Elsevier Ltd
Keywords:
artificial neural network, data-driven model, machine learning,, matlab, ship speed prediction,, Machine learning, Artificial neural network, Data-driven model, Ship speed prediction, MATLAB
Identifiers
Local EPrints ID: 476765
URI: http://eprints.soton.ac.uk/id/eprint/476765
ISSN: 1571-9952
PURE UUID: 4755825c-8570-4350-88e9-a3bcbe32bd91
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Date deposited: 15 May 2023 16:35
Last modified: 17 Mar 2024 03:00
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Author:
Ameen Bassam
Author:
Alexander Phillips
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