Towards the uncertainty quantification of semi-empirical formulas applied to the added resistance of ships in waves of arbitrary heading
The present paper examines a semi-empirical framework for the estimation of added resistance in arbitrary wave heading under consideration of uncertainty quantification. In this respect, the calibration of the formula's parameter vector is conducted based on particle swarm optimization as well...
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sg-ntu-dr.10356-1625802022-10-31T05:17:08Z Towards the uncertainty quantification of semi-empirical formulas applied to the added resistance of ships in waves of arbitrary heading Mittendorf, Malte Nielsen, Ulrik D. Bingham, Harry B. Liu, Shukui School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Uncertainty Quantification Parameter Calibration The present paper examines a semi-empirical framework for the estimation of added resistance in arbitrary wave heading under consideration of uncertainty quantification. In this respect, the calibration of the formula's parameter vector is conducted based on particle swarm optimization as well as a database of model test results comprising 25 different ships and around 1100 samples. In the first iteration, the minimization of reducible systematic uncertainty is of interest and the effect of four objective functions on prediction accuracy is evaluated. Moreover, two different parameter combinations were obtained for blunt (CB≥0.70) and slender-type ships. Conversely, the irreducible statistical uncertainty, i.e. the inherent noise of the experimental data, is taken into account by a quantile regression procedure. Applying this approach, a 90% prediction interval for the formula's estimates is implemented using the skewed version of the superior loss function in the previous iteration. The practical relevance of an uncertainty estimate for the prediction of the added resistance is emphasized in the final part, in which the proposed approach is validated in regular waves against model test data and other well-established prediction methods. In general, the validation studies suggest satisfactory performance and reliability of the adapted semi-empirical formulation. Published version The financial support from The Danish Maritime Fund (Projekt 2019-043), A/S D/S Orient’s Fond and the Department of Mechanical Engineering (DTU) is highly appreciated. The second author received funding by the Research Council of Norway through the Centres of Excellence scheme, project number 223254 AMOS. 2022-10-31T05:17:08Z 2022-10-31T05:17:08Z 2022 Journal Article Mittendorf, M., Nielsen, U. D., Bingham, H. B. & Liu, S. (2022). Towards the uncertainty quantification of semi-empirical formulas applied to the added resistance of ships in waves of arbitrary heading. Ocean Engineering, 251, 111040-. https://dx.doi.org/10.1016/j.oceaneng.2022.111040 0029-8018 https://hdl.handle.net/10356/162580 10.1016/j.oceaneng.2022.111040 2-s2.0-85126847805 251 111040 en Ocean Engineering © 2022 The Author(s). Published by Elsevier Ltd. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering::Mechanical engineering Uncertainty Quantification Parameter Calibration Mittendorf, Malte Nielsen, Ulrik D. Bingham, Harry B. Liu, Shukui Towards the uncertainty quantification of semi-empirical formulas applied to the added resistance of ships in waves of arbitrary heading |
| description |
The present paper examines a semi-empirical framework for the estimation of added resistance in arbitrary wave heading under consideration of uncertainty quantification. In this respect, the calibration of the formula's parameter vector is conducted based on particle swarm optimization as well as a database of model test results comprising 25 different ships and around 1100 samples. In the first iteration, the minimization of reducible systematic uncertainty is of interest and the effect of four objective functions on prediction accuracy is evaluated. Moreover, two different parameter combinations were obtained for blunt (CB≥0.70) and slender-type ships. Conversely, the irreducible statistical uncertainty, i.e. the inherent noise of the experimental data, is taken into account by a quantile regression procedure. Applying this approach, a 90% prediction interval for the formula's estimates is implemented using the skewed version of the superior loss function in the previous iteration. The practical relevance of an uncertainty estimate for the prediction of the added resistance is emphasized in the final part, in which the proposed approach is validated in regular waves against model test data and other well-established prediction methods. In general, the validation studies suggest satisfactory performance and reliability of the adapted semi-empirical formulation. |
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School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Mittendorf, Malte Nielsen, Ulrik D. Bingham, Harry B. Liu, Shukui |
| format |
Article |
| author |
Mittendorf, Malte Nielsen, Ulrik D. Bingham, Harry B. Liu, Shukui |
| author_sort |
Mittendorf, Malte |
| title |
Towards the uncertainty quantification of semi-empirical formulas applied to the added resistance of ships in waves of arbitrary heading |
| title_short |
Towards the uncertainty quantification of semi-empirical formulas applied to the added resistance of ships in waves of arbitrary heading |
| title_full |
Towards the uncertainty quantification of semi-empirical formulas applied to the added resistance of ships in waves of arbitrary heading |
| title_fullStr |
Towards the uncertainty quantification of semi-empirical formulas applied to the added resistance of ships in waves of arbitrary heading |
| title_full_unstemmed |
Towards the uncertainty quantification of semi-empirical formulas applied to the added resistance of ships in waves of arbitrary heading |
| title_sort |
towards the uncertainty quantification of semi-empirical formulas applied to the added resistance of ships in waves of arbitrary heading |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162580 |
| _version_ |
1749179138716991488 |