Microparticle cloud imaging and tracking for data-driven plasma science
Abstract
Large data sets give rise to the `fourth paradigm' of scientific discovery and technology development, extending other approaches based on human intuition, fundamental laws of physics, statistics and intense computation. Both experimental and simulation data are growing explosively in plasma science and technology, motivating data-driven discoveries and inventions, which are currently in infancy. Here we describe recent progress in microparticle cloud imaging and tracking (mCIT, CIT) for laboratory plasma experiments. Three types of microparticle clouds are described: from exploding wires, in dusty plasmas and in atmospheric plasmas. The experimental data sets are obtained with one or more imaging cameras at a rate up to 100k frames per second (fps). A physics-constrained motion tracker, a Kohonen neural network (KNN) or self-organizing map (SOM), the feature tracking kit (FTK), and U-Net are described and compared with each other for particle tracking using the datasets. Particle density and signal-to-noise ratio have been identified as two important factors that affect the tracking accuracy. Fast Fourier transform (FFT) is used to reveal how U-Net, a deep convolutional neural network (CNN) developed for non-plasma applications, achieves the improvements for noisy scenes. The fitting parameters for a simple polynomial track model are found to group into clusters that reveal the geometry information about the camera setup. The mCIT or CIT techniques, when enhanced with data models, can be used to study the microparticle- or Debye-length scale plasma physics. The datasets are also available for ML code development and comparisons of algorithms.
Cite
@article{arxiv.1911.01000,
title = {Microparticle cloud imaging and tracking for data-driven plasma science},
author = {Zhehui Wang and Jiayi Xu and Yao E. Kovach and Bradley T. Wolfe and Edward Thomas and Hanqi Guo and John E. Foster and Han-Wei Shen},
journal= {arXiv preprint arXiv:1911.01000},
year = {2023}
}
Comments
14 pages, 15 figures, invited talk to the 2nd international conference on data-driven plasma science, Marseille, France, May 13-17, 2019