基于最优传输的参数元模型应用于不确定性评估

S. Torregrosa, David Muñoz, Vincent Herbert, F. Chinesta
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引用次数: 0

摘要

在训练参数代用程序以实时表示真实世界的复杂系统时,通常的假设是,定义系统的参数值是绝对可信的。因此,在训练过程中,我们的重点完全放在优化代理输出的准确性上。然而,真实物理的特点是复杂性和不可预测性增加。值得注意的是,在确定系统参数时可能存在一定程度的不确定性。因此,在本文中,我们使用标准蒙特卡洛方法对这些不确定性通过代理系统的传播进行了说明。随后,我们提出了一种基于最优传输的新型回归技术,用于实时推断代理输入的不确定性对其输出精度的影响。与经典回归技术(包括高级回归技术)相比,基于 OT 的回归技术能更准确地推断出模拟物理现实的场。
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Parametric Metamodeling Based on Optimal Transport Applied to Uncertainty Evaluation
When training a parametric surrogate to represent a real-world complex system in real time, there is a common assumption that the values of the parameters defining the system are known with absolute confidence. Consequently, during the training process, our focus is directed exclusively towards optimizing the accuracy of the surrogate’s output. However, real physics is characterized by increased complexity and unpredictability. Notably, a certain degree of uncertainty may exist in determining the system’s parameters. Therefore, in this paper, we account for the propagation of these uncertainties through the surrogate using a standard Monte Carlo methodology. Subsequently, we propose a novel regression technique based on optimal transport to infer the impact of the uncertainty of the surrogate’s input on its output precision in real time. The OT-based regression allows for the inference of fields emulating physical reality more accurately than classical regression techniques, including advanced ones.
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