Publications

Visibility, Topology, and Inertia: New Methods in Flow Visualization

IEEE Computer Graphics and Applications, 2020

Abstract

In this article, we address three different topics in scientific visualization. The first part introduces optimization strategies that determine the visibility of line and surface geometry, such that a balance between occlusion avoidance and preservation of context is found. The second part proposes new methods for the visualization of time-dependent fluid flows, including the accurate depiction of Lagrangian scalar fields, as well as a new category of vortex identification methods. The third part introduces finite-sized particles as new application area for flow visualization, covering geometry-based methods, particle separation, topology, vortex corelines, and the determination of the origin of finite-sized particles.

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@article{Guenther20CGA,

  author = {G{\"u}nther, Tobias},

  title = {Visibility, Topology, and Inertia: New Methods in Flow Visualization},

  journal = {IEEE Computer Graphics and Applications},

  volume = {40},

  number = {2},

  pages = {103-111},

  year = {2020},

  publisher = {IEEE},

  doi = {10.1109/MCG.2019.2959568},

}

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Publications

Visibility, Topology, and Inertia: New Methods in Flow Visualization

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