KF-PEV: a causal Kalman filter-based particle event velocimetry

IF 2.3 3区 工程技术 Q2 ENGINEERING, MECHANICAL
Osama AlSattam, Michael Mongin, Mitchell Grose, Sidaard Gunasekaran, Keigo Hirakawa
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Abstract

Event-based pixel sensors asynchronously report changes in log-intensity in microsecond-order resolution. Its exceptional speed, cost effectiveness, and sparse event stream make it an attractive imaging modality for particle tracking velocimetry. In this work, we propose a causal Kalman filter-based particle event velocimetry (KF-PEV). Using the Kalman filter model to track the events generated by the particles seeded in the flow medium, KF-PEV yields the linear least squares estimate of the particle track velocities corresponding to the flow vector field. KF-PEV processes events in a computationally efficient and streaming manner (i.e., causal and iteratively updating). Our simulation-based benchmarking study with synthetic particle event data confirms that the proposed KF-PEV outperforms the conventional frame-based particle image/tracking velocimetry as well as the state-of-the-art event-based particle velocimetry methods. In a real-world water tunnel event-based sensor data experiment performed on what we believe to be the widest field view ever reported, KF-PEV accurately predicted the expected flow field of the SD7003 wing, including details such as the lower velocity in the wake and the flow separation around the underside of an angled wing.

Abstract Image

KF-PEV:基于因果卡尔曼滤波器的粒子事件测速仪
基于事件的像素传感器以微秒级的分辨率异步报告对数强度的变化。其卓越的速度、成本效益和稀疏的事件流使其成为粒子跟踪测速的一种极具吸引力的成像模式。在这项工作中,我们提出了基于因果卡尔曼滤波器的粒子事件测速(KF-PEV)。KF-PEV 利用卡尔曼滤波模型来跟踪流动介质中的粒子种子所产生的事件,从而得到与流动矢量场相对应的粒子轨迹速度的线性最小二乘法估计值。KF-PEV 以计算高效的流式方式(即因果关系和迭代更新)处理事件。我们利用合成粒子事件数据进行的模拟基准研究证实,所提出的 KF-PEV 优于传统的基于帧的粒子图像/跟踪测速法以及最先进的基于事件的粒子测速法。在实际的水洞事件传感器数据实验中,KF-PEV 准确预测了 SD7003 机翼的预期流场,包括尾流中较低的速度和倾斜机翼底部周围的流动分离等细节。
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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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