分布变化下船舶动力预测的神经符号方法

2023 IEEE Jordan International Joint Conference on Electrical Engineering and Information Technology (JEEIT) Pub Date : 2023-05-22 DOI:10.1109/JEEIT58638.2023.10185803

Ahmad Hammoudeh, Ibrahim Ghannam, Hamza Mubarak, Emmanuael Jean, Virginie Vandenbulcke, Stéphane Dupont

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摘要

本文提出了一种神经符号预测船舶动力的方法。神经符号方法由两部分组成。第一个是神经网络部分，第二个是基于物理公式的符号部分。shift -power数据集用于评估。实验结果表明，基于物理的模块(符号部分)与神经网络模型(即集成蒙特卡罗dropout)的组合在使用R-AUC测量的不确定性估计方面取代了最先进的结果2.3%，在使用RMSE测量的离分布(OOD)示例的功率预测方面取代了3.4%。在不确定性方面，它比符号化方法高出6.3%，在OOD功率预测方面，它比符号化方法高出17.7%。

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A Neuro-Symbolic Approach for Marine Vessels Power Prediction Under Distribution Shifts

This paper proposes a neuro-symbolic approach to predict the power of marine cargo vessels. The neuro-symbolic approach combines two parts. The first is a neural networks part, and the second is a symbolic part that relies on physics-based formulae. The Shifts-power dataset was used for evaluation. The experimental results showed that a combination of a physics-based module (symbolic part) with a neural networks model (namely ensemble Monte Carlo dropout) superseded the state-of-the-art results by 2.3% in terms of uncertainty estimation measured using R-AUC, and by 3.4% in terms of power prediction for out-of-distribution (OOD) examples measured using RMSE. It also superseded the symbolic approach by 6.3% in terms of uncertainty and 17.7% in terms of OOD power prediction.

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2023 IEEE Jordan International Joint Conference on Electrical Engineering and Information Technology (JEEIT)

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