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Parameter Prediction of the Non-Linear Nomoto Model for Different Ship Loading Conditions Using Support Vector Regression

Jiafen Lan, Mao Zheng, Xiumin Chu, Shigan Ding

2023Journal of Marine Science and Engineering22 citationsDOIOpen Access PDF

Abstract

Significant changes in the load of cargo ships make it difficult to simulate and control their motion. In this work, a parameter prediction method for a ship maneuvering motion model is developed based on parameter identification and support vector regression (SVR). First, the effects of least-squares (LS) and multi-innovation least-squares (MILS) parameter identification methods for the non-linear Nomoto model are investigated. The MILS method is then used to identify the parameters of the non-linear Nomoto model under various load conditions, and model training datasets are established. On this basis, SVR is used to predict the parameters of the non-linear Nomoto model. The results reveal that the MILS method converges faster than the LS method. The SVR method achieves lower accuracy than the MILS method, but exhibits reasonable prediction accuracy for zigzag motions, and the maneuvering motion model can be predicted as navigation conditions change.

Topics & Concepts

Control theory (sociology)Basis (linear algebra)Support vector machineLeast-squares function approximationLinear regressionIdentification (biology)MathematicsZigzagStatisticsComputer scienceArtificial intelligenceControl (management)BiologyEstimatorGeometryBotanyShip Hydrodynamics and ManeuverabilityMaritime Navigation and SafetyStructural Integrity and Reliability Analysis
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