A meshless and binless approach to compute statistics in 3D ensemble PTV

IF 2.3 3区 工程技术 Q2 ENGINEERING, MECHANICAL
Manuel Ratz, Miguel A. Mendez
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Abstract

We propose a method to obtain super-resolution of turbulent statistics for three-dimensional ensemble particle tracking velocimetry (EPTV). The method is “meshless” because it does not require the definition of a grid for computing derivatives, and it is “binless” because it does not require the definition of bins to compute local statistics. The method combines the constrained radial basis function (RBF) formalism introduced Sperotto et al. (Meas Sci Technol 33:094005, 2022) with an ensemble trick for the RBF regression of flow statistics. The computational cost for the RBF regression is alleviated using the partition of unity method (PUM). Three test cases are considered: (1) a 1D illustrative problem on a Gaussian process, (2) a 3D synthetic test case reproducing a 3D jet-like flow, and (3) an experimental dataset collected for an underwater jet flow at \(\text {Re} = 6750\) using a four-camera 3D PTV system. For each test case, the method performances are compared to traditional binning approaches such as Gaussian weighting (Agüí and Jiménez in JFM 185:447–468, 1987), local polynomial fitting (Agüera et al. in Meas Sci Technol 27:124011, 2016), as well as binned versions of RBFs.

Abstract Image

计算三维集合 PTV 统计数据的无网格和无二进制方法
我们提出了一种为三维集合粒子跟踪测速(EPTV)获得湍流统计超分辨率的方法。该方法是 "无网格 "的,因为它不需要定义网格来计算导数;它是 "无分区 "的,因为它不需要定义分区来计算局部统计数据。该方法结合了 Sperotto 等人(Meas Sci Technol 33:094005, 2022)介绍的受约束径向基函数(RBF)形式和 RBF 流量统计回归的集合技巧。使用统一分割法(PUM)减轻了 RBF 回归的计算成本。本文考虑了三个测试案例:(1)高斯过程的一维说明性问题;(2)再现三维喷射流的三维合成测试案例;(3)使用四摄像头三维 PTV 系统在 \(\text {Re} = 6750\) 条件下收集的水下喷射流实验数据集。对于每个测试案例,该方法的性能都与传统的分选方法进行了比较,如高斯加权(Agüí 和 Jiménez 在 JFM 185:447-468, 1987)、局部多项式拟合(Agüera 等人在 Meas Sci Technol 27:124011, 2016)以及 RBF 的分选版本。
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来源期刊
Experiments in Fluids
Experiments in Fluids 工程技术-工程:机械
CiteScore
5.10
自引率
12.50%
发文量
157
审稿时长
3.8 months
期刊介绍: Experiments in Fluids examines the advancement, extension, and improvement of new techniques of flow measurement. The journal also publishes contributions that employ existing experimental techniques to gain an understanding of the underlying flow physics in the areas of turbulence, aerodynamics, hydrodynamics, convective heat transfer, combustion, turbomachinery, multi-phase flows, and chemical, biological and geological flows. In addition, readers will find papers that report on investigations combining experimental and analytical/numerical approaches.
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