Conditional score-based diffusion models for solving inverse elasticity problems

IF 6.9 1区 工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY
Agnimitra Dasgupta , Harisankar Ramaswamy , Javier Murgoitio-Esandi , Ken Y. Foo , Runze Li , Qifa Zhou , Brendan F. Kennedy , Assad A. Oberai
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引用次数: 0

Abstract

We propose a framework to perform Bayesian inference using conditional score-based diffusion models to solve a class of inverse problems in mechanics involving the inference of a specimen’s spatially varying material properties from noisy measurements of its mechanical response to loading. Conditional score-based diffusion models are generative models that learn to approximate the score function of a conditional distribution using samples from the joint distribution. More specifically, the score functions corresponding to multiple realizations of the measurement are approximated using a single neural network, the so-called score network, which is subsequently used to sample the posterior distribution using an appropriate Markov chain Monte Carlo scheme based on Langevin dynamics. Training the score network only requires simulating the forward model. Hence, the proposed approach can accommodate black-box forward models and complex measurement noise. Moreover, once the score network has been trained, it can be re-used to solve the inverse problem for different realizations of the measurements. We demonstrate the efficacy of the proposed approach on a suite of high-dimensional inverse problems in mechanics that involve inferring heterogeneous material properties from noisy measurements. Some examples we consider involve synthetic data, while others include data collected from actual elastography experiments. Further, our applications demonstrate that the proposed approach can handle different measurement modalities, complex patterns in the inferred quantities, non-Gaussian and non-additive noise models, and nonlinear black-box forward models. The results show that the proposed framework can solve large-scale physics-based inverse problems efficiently.
用于解决反弹性问题的基于条件分值的扩散模型
我们提出了一种利用基于条件分值的扩散模型进行贝叶斯推断的框架,以解决力学中的一类逆问题,这些问题涉及根据对试样加载机械响应的噪声测量结果推断试样的空间变化材料特性。基于条件分值的扩散模型是一种生成模型,它利用联合分布的样本来学习近似条件分布的分值函数。更具体地说,使用一个神经网络(即所谓的分数网络)来逼近与测量的多个实现相对应的分数函数,然后使用基于朗文动力学的适当马尔可夫链蒙特卡洛方案对后验分布进行采样。训练得分网络只需要模拟前向模型。因此,所提出的方法可以适应黑箱前向模型和复杂的测量噪声。此外,一旦得分网络训练完成,就可以重新使用它来解决不同测量现实的逆问题。我们在力学领域的一系列高维逆问题上演示了所提方法的功效,这些问题涉及从噪声测量中推断异质材料属性。我们考虑的一些例子涉及合成数据,而其他例子则包括从实际弹性成像实验中收集的数据。此外,我们的应用表明,所提出的方法可以处理不同的测量模式、推断量的复杂模式、非高斯和非加性噪声模型以及非线性黑箱前向模型。结果表明,所提出的框架可以高效地解决基于物理学的大规模逆问题。
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来源期刊
CiteScore
12.70
自引率
15.30%
发文量
719
审稿时长
44 days
期刊介绍: Computer Methods in Applied Mechanics and Engineering stands as a cornerstone in the realm of computational science and engineering. With a history spanning over five decades, the journal has been a key platform for disseminating papers on advanced mathematical modeling and numerical solutions. Interdisciplinary in nature, these contributions encompass mechanics, mathematics, computer science, and various scientific disciplines. The journal welcomes a broad range of computational methods addressing the simulation, analysis, and design of complex physical problems, making it a vital resource for researchers in the field.
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