Investigating embedded data distribution strategy on reconstruction accuracy of flow field around the crosswind-affected train based on physics-informed neural networks

IF 4 3区 工程技术 Q1 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS International Journal of Numerical Methods for Heat & Fluid Flow Pub Date : 2024-05-28 DOI:10.1108/hff-11-2023-0709
Guang-Zhi Zeng, Zheng-Wei Chen, Yi-Qing Ni, En-Ze Rui
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Abstract

Purpose

Physics-informed neural networks (PINNs) have become a new tendency in flow simulation, because of their self-advantage of integrating both physical and monitored information of fields in solving the Navier–Stokes equation and its variants. In view of the strengths of PINN, this study aims to investigate the impact of spatially embedded data distribution on the flow field results around the train in the crosswind environment reconstructed by PINN.

Design/methodology/approach

PINN can integrate data residuals with physical residuals into the loss function to train its parameters, allowing it to approximate the solution of the governing equations. In addition, with the aid of labelled training data, PINN can also incorporate the real site information of the flow field in model training. In light of this, the PINN model is adopted to reconstruct a two-dimensional time-averaged flow field around a train under crosswinds in the spatial domain with the aid of sparse flow field data, and the prediction results are compared with the reference results obtained from numerical modelling.

Findings

The prediction results from PINN results demonstrated a low discrepancy with those obtained from numerical simulations. The results of this study indicate that a threshold of the spatial embedded data density exists, in both the near wall and far wall areas on the train’s leeward side, as well as the near train surface area. In other words, a negative effect on the PINN reconstruction accuracy will emerge if the spatial embedded data density exceeds or slips below the threshold. Also, the optimum arrangement of the spatial embedded data in reconstructing the flow field of the train in crosswinds is obtained in this work.

Originality/value

In this work, a strategy of reconstructing the time-averaged flow field of the train under crosswind conditions is proposed based on the physics-informed data-driven method, which enhances the scope of neural network applications. In addition, for the flow field reconstruction, the effect of spatial embedded data arrangement in PINN is compared to improve its accuracy.

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基于物理信息神经网络的嵌入式数据分布策略对横风影响列车周围流场重建精度的影响研究
目的物理信息神经网络(PINNs)因其在求解纳维-斯托克斯方程及其变体时可同时整合物理场和监测场信息的自身优势,已成为流动模拟领域的一种新趋势。鉴于 PINN 的优势,本研究旨在探讨空间嵌入式数据分布对 PINN 重建的横风环境下列车周围流场结果的影响。此外,借助标注的训练数据,PINN 还能将流场的实际现场信息纳入模型训练。有鉴于此,我们采用 PINN 模型,借助稀疏流场数据,在空间域重建了横风条件下列车周围的二维时均流场,并将预测结果与数值模拟的参考结果进行了比较。研究结果表明,在列车背风面的近壁和远壁区域,以及列车近表面区域,都存在空间嵌入数据密度的临界值。换句话说,如果空间嵌入数据密度超过或低于阈值,就会对 PINN 重建精度产生负面影响。原创性/价值在这项工作中,基于物理信息数据驱动方法,提出了一种在横风条件下重建列车时均流场的策略,扩大了神经网络的应用范围。此外,针对流场重建,比较了 PINN 中空间嵌入数据排列的效果,以提高其准确性。
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来源期刊
CiteScore
9.50
自引率
11.90%
发文量
100
审稿时长
6-12 weeks
期刊介绍: The main objective of this international journal is to provide applied mathematicians, engineers and scientists engaged in computer-aided design and research in computational heat transfer and fluid dynamics, whether in academic institutions of industry, with timely and accessible information on the development, refinement and application of computer-based numerical techniques for solving problems in heat and fluid flow. - See more at: http://emeraldgrouppublishing.com/products/journals/journals.htm?id=hff#sthash.Kf80GRt8.dpuf
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