In this paper, we study the problem of large-strain consolidation in poromechanics with deep neural networks (DNN). Given different material properties and different loading conditions, the goal is to predict pore pressure and settlement. We propose a novel method "multi-constitutive neural network" (MCNN) such that one model can solve several different constitutive laws. We introduce a one-hot encoding vector as an additional input vector, which is used to label the constitutive law we wish to solve. Then we build a DNN which takes $(\hat{X}, \hat{t})$ as input along with a constitutive law label and outputs the corresponding solution. It is the first time, to our knowledge, that we can evaluate multi-constitutive laws through only one training process while still obtaining good accuracies. We found that MCNN trained to solve multiple PDEs outperforms individual neural network solvers trained with PDE in some cases.
翻译:在本文中,我们研究了与深神经网络(DNN)一起在小气候机械中大规模地结合的问题。考虑到不同的物质特性和不同的装货条件,我们的目标是预测孔隙压力和溶液。我们提出了一个“多结构神经网络”的新颖方法(MCNN),这样一种模式可以解决多种不同的构成法。我们引入了一种单热编码矢量作为额外的输入矢量,用来标出我们希望解决的构成法。然后,我们建立了一个DNN,用$(hat{X},\hat{t}美元作为投入,并配有组织法标签和相应的解决方案。据我们所知,这是第一次通过一个培训过程来评估多结构法律,同时仍然获得良好的理解性。我们发现,MCN培训了多种PDEs的解决方案,比在PDE中培训的单个神经网络解决者要多。
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