涡轮部件损伤的自动数据驱动物理发现

Volume 8B: Structures and Dynamics — Probabilistic Methods; Rotordynamics; Structural Mechanics and Vibration Pub Date : 2022-06-13 DOI:10.1115/gt2022-83372

Sheng Zhang, Ryan Jacobs, Sayan Ghosh, Ambarish Kulkarni, Liping Wang

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引用次数: 0

摘要

提出了一种用于涡轮部件损伤建模的自动物理发现算法。我们的算法利用一个机械部件的操作数据，并发现一个可解释的符号公式来描述物理。通过两个算例验证了算法的有效性，结果表明所建立的公式能够准确地预测未来的损伤情况。我们的框架是灵活的，很容易适用于科学和工程的所有领域。利用先进的机器学习工具，研究人员可以简单地输入实验数据，然后自动打印出物理公式。新算法的应用可以显著减少物理模型的研发时间，同时在预测上达到几乎最好的精度。

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Automated Data-Driven Physics Discovery of Turbine Component Damage

We propose an automated physics discovery algorithm for turbine component damage modeling. Our algorithm utilizes operational data of a mechanical component and discovers an interpretable symbolic formula that describes the physics. We illustrate our algorithm through two numerical examples and demonstrate that the discovered formulas can predict the future damage accurately. Our framework is flexible and easily applicable to all areas of science and engineering. With cutting-edge machine learning tools, researchers can simply input the experimental data and then the physics formulas are printed out automatically. The application of this new algorithm may reduce the time spent on research and development of physics models significantly, while achieving almost the best accuracy in prediction.

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Volume 8B: Structures and Dynamics — Probabilistic Methods; Rotordynamics; Structural Mechanics and Vibration

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