Large-scale volumetric particle tracking using a single camera: Analysis of the scalability and accuracy of glare-point particle tracking

Kaiser, Frieder; Rival, David E.

doi:10.21203/rs.3.rs-2356060/v1

2022

DOI: 10.21203/rs.3.rs-2356060/v1

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Large-scale volumetric particle tracking using a single camera: Analysis of the scalability and accuracy of glare-point particle tracking

Frieder Kaiser

David E. Rival

Abstract: Recent advances in tracer, illumination, and camera technology, paired with new processing algorithms, have been pushing the limits of scale for three-dimensional flow measurements. The present study explores the state-of-the-art and discusses the current progress towards full-scale, in situ flow measurements in very large measurement volumes of order 10m² or larger. In particular, we focus on industrial and environmental applications, where the measurement time, the processing time, and overall system cost al… Show more

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Identifying dominant flow features from very-sparse Lagrangian data: a multiscale recurrence network-based approach

Iacobello,

Rival

2023

Exp Fluids

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Realistic fluid flow problems often require that Lagrangian tracers are deployed in a sparse or very-sparse manner, such as for oceanic and atmospheric flows where large-scale motion needs characterisation. Data sparsity represents a significant issue in Lagrangian analysis, especially for data-driven methods that rely heavily on large datasets. We propose a multiscale spatial recurrence network (MSRN) methodology for characterising very-sparse Lagrangian data, which exploits individual tracks and a spatial recurrence criterion to identify the spatio-temporal complexity of tracer trajectories. The MSRN is an unsupervised modelling framework that does not require a priori parameter setting, and—through the quantification of persistent link activation at specific trajectory intervals—can reveal the presence of dominant looping scales in a variety of salient fluid flows. This new paradigm is shown to be successful for the study of Lagrangian tracers seeded in complex (realistic) flows, including unsteady and advection-dominated problems. This makes MSRNs an effective and versatile tool to characterise sensor trajectories in key problems such as environmental processes critical to understanding and mitigating climate change. Graphic abstract

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Identifying dominant flow features from very-sparse Lagrangian data: a multiscale recurrence network-based approach

Iacobello,

Rival

2023

Exp Fluids

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show abstract

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Large-scale volumetric particle tracking using a single camera: Analysis of the scalability and accuracy of glare-point particle tracking

Cited by 1 publication

References 14 publications

Identifying dominant flow features from very-sparse Lagrangian data: a multiscale recurrence network-based approach

Identifying dominant flow features from very-sparse Lagrangian data: a multiscale recurrence network-based approach

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