Ship Manoeuvring Model Parameter Identification Using Intelligent Machine Learning Method and the Beetle Antennae Search Algorithm

Volume 7B: Ocean Engineering Pub Date : 2019-06-09 DOI:10.1115/omae2019-95565

Changyuan Chen, M. T. Ruiz, E. Lataire, G. Delefortrie, Marc Mansuy, Tianlong Mei, M. Vantorre

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引用次数: 7

Abstract

In order to identify more accurately and efficiently the unknown parameters of a ship motions model, a novel Nonlinear Least Squares Support Vector Machine (NLSSVM) algorithm, whose penalty factor and Radial Basis Function (RBF) kernel parameters are optimised by the Beetle Antennae Search algorithm (BAS), is proposed and investigated. Aiming at validating the accuracy and applicability of the proposed method, the method is employed to identify the linear and nonlinear parameters of the first-order nonlinear Nomoto model with training samples from numerical simulation and experimental data. Subsequently, the identified parameters are applied in predicting the ship motion. The predicted results illustrate that the new NLSSVM-BAS algorithm can be applied in identifying ship motion’s model, and the effectiveness is verified. Compared among traditional identification approaches with the proposed method, the results display that the accuracy is improved. Moreover, the robust and stability of the NLSSVM-BAS are verified by adding noise in the training sample data.

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基于智能机器学习和甲虫天线搜索算法的船舶操纵模型参数识别

为了更准确、高效地识别船舶运动模型的未知参数，提出并研究了一种新的非线性最小二乘支持向量机(NLSSVM)算法，该算法采用甲虫天线搜索算法优化惩罚因子和径向基函数(RBF)核参数。为了验证所提方法的准确性和适用性，利用数值模拟和实验数据的训练样本对一阶非线性Nomoto模型的线性和非线性参数进行了识别。随后，将识别出的参数应用于船舶运动预测。预测结果表明，新的NLSSVM-BAS算法可以用于船舶运动模型的识别，并验证了算法的有效性。将该方法与传统识别方法进行比较，结果表明该方法的识别精度得到了提高。此外，通过在训练样本数据中加入噪声，验证了NLSSVM-BAS的鲁棒性和稳定性。

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Volume 7B: Ocean Engineering

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