F. Sadlo,
S. Bachthaler,
C. Dachsbacher,
D. Weiskopf:
In Computer Vision, Imaging and Computer Graphics. Theory and Application, Springer Berlin Heidelberg,
pp. 145–159,
2013.
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Abstract
Stretching and compression in tangent directions of Lagrangian coherent structures (LCS) are of particular interest in the vicinity of hyperbolic trajectories and play a key role in turbulence and mixing. Since integration of hyperbolic trajectories is difficult, we propose to visualize them in 2D time-dependent vector fields by space-time intersection curves of LCS. LCS are present as ridge lines in the 2D finite-time Lyapunov exponent (FTLE) field and as ridge surfaces in its 3D space-time domain. We extract these ridge surfaces from the forward and reverse FTLE field and intersect them. Due to their advection property, LCS become stream surfaces in 3D space-time. This allows us to use line integral convolution on the LCS to visualize their intrinsic dynamics, in particular around hyperbolic trajectories. To reduce occlusion, we constrain the LCS to space-time bands around their intersection curves. We evaluate our approach using synthetic, simulated, and measured vector fields.
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Available Files
[BibTeX]
[DOI]
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