基于机器学习的波浪诱导血管响应预测

Volume 5A: Ocean Engineering Pub Date : 2022-06-05 DOI:10.1115/omae2022-78261

A. Cetin, Vegard R. Solum, Cristina M. Evans

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引用次数: 0

摘要

“等待天气”对近海船舶的可操作性是一种代价高昂的限制。船舶作业窗口是根据天气和船舶运动之间的关系确定的，这些预测的不确定性可能导致船舶作业过早停止。为了提高海上作业的效率，现有的基于常规响应振幅算子(RAOs)的假设和计算应该受到挑战和改进。提出了一种机器学习方法，作为用数据丰富这些传统rao的一种手段。机器学习模型使用海况预测来预测船舶的响应谱。该模型被巧妙地制定为在缺乏足够数据的情况下使用任何现有的RAO作为备用解决方案。当应用于一个全面的真实世界场景时，该模型的表现明显优于“最佳”可用的现有RAO。这些结果不仅可以用于改进波浪-容器响应预测，而且可以提高我们对现有rao及其缺点的理解。最终，这项工作有助于减少海上船舶可操作性受到天气限制时的过度保守。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Machine Learning Based Prediction of Wave-Induced Vessel Response

“Waiting on weather” is a costly restraint on offshore vessel operability. Vessel operating windows are determined based on the relationships between the weather and vessel movement, and uncertainties in these predictions may result in vessel operations being ceased prematurely. To improve the efficiency of offshore operations, existing assumptions and calculations based on conventional response amplitude operators (RAOs) should be challenged and improved. A machine learning approach is presented as a means of enriching these conventional RAOs with data. The machine learning model uses sea state forecasts to predict vessel response spectra. The model is cleverly formulated to use any existing RAO as a fallback solution in the absence of sufficient data. When applied to a comprehensive real-world scenario, the model predominantly outperforms the “best” available existing RAO. The results can be used not only to improve wave-vessel response predictions, but also to improve our understanding of existing RAOs and their shortcomings. Ultimately, the work can contribute to reducing overconservatism in weather-based restrictions on offshore vessel operability.

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Volume 5A: Ocean Engineering

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