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An accurate and efficient deep learning model for spatio-temporal prediction of interfacial flows

Yangyu Deng, Di Zhang, Ze Cao, Yakun Liu

2024Physics of Fluids12 citationsDOI

Abstract

Aiming at fast and accurate spatiotemporal prediction of interfacial flow fields, a novel deep learning model combining Convolutional AutoEncoder (CAE) and long short-term memory with spatial and temporal attention (LSTM-STA) is proposed and named as CAE-LSTM-STA (hybrid model of CAE and LSTM-STA) in this article. To enable a fast calculation process, CAE is first utilized to compress the high-dimensional snapshots of flow fields into the low-dimensional latent space by its encoder. Then, the latent space serves as the input feature for LSTM-STA to temporally evolve the state of the low-dimensional latent space. Finally, the low-dimensional latent space at future time steps is fed back into the decoder of CAE to derive the full-order snapshots of the flow fields. The prediction performance of the proposed model is evaluated via two representative benchmark cases, including the dam break case and the rising bubble case. The capability of CAE in dimension reduction is found to be much better than that of the widely used Proper Orthogonal Decomposition, while LSTM-STA is observed that outperforms the original LSTM in multivariant temporal prediction. These promising results indicate that the proposed CAE-LSTM-STA model is able to effectively capture and advance the spatiotemporal characteristics of the interfacial flow fields, therefore making it an advanced surrogate model for fast and precise generation of the temporally continuous interfacial flow fields.

Topics & Concepts

AutoencoderDeep learningBenchmark (surveying)Flow (mathematics)Artificial intelligenceDimension (graph theory)Dimensionality reductionConvolutional neural networkComputer sciencePattern recognition (psychology)Reduction (mathematics)AlgorithmPhysicsMechanicsPure mathematicsGeographyGeodesyMathematicsGeometryLattice Boltzmann Simulation StudiesMeteorological Phenomena and SimulationsFlood Risk Assessment and Management
An accurate and efficient deep learning model for spatio-temporal prediction of interfacial flows | Litcius