Günther T (2020)
Publication Type: Journal article
Publication year: 2020
Book Volume: 40
Pages Range: 103-111
Article Number: 9020213
Journal Issue: 2
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.
APA:
Günther, T. (2020). Visibility, Topology, and Inertia: New Methods in Flow Visualization. IEEE Computer Graphics and Applications, 40(2), 103-111. https://doi.org/10.1109/MCG.2019.2959568
MLA:
Günther, Tobias. "Visibility, Topology, and Inertia: New Methods in Flow Visualization." IEEE Computer Graphics and Applications 40.2 (2020): 103-111.
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