Untangling tracer trajectories and clarifying coherence in 2D flows using braid theory

Margaux Filippi; Severine Atis; Jean-Luc Thiffeault; Marko Budi\v{s}i\'{c}; Michael Allshouse; Thomas Peacock

Untangling tracer trajectories and clarifying coherence in 2D flows using braid theory

ORAL

Abstract

Interpreting ocean surface transport is crucial to many areas of oceanography, ranging from marine ecology to pollution management. To better understand surface mixing, we investigate a braid theory method to detect transport barriers bounding coherent structures in two-dimensional fluid flows. Whereas most existing techniques rely on an extensive spatiotemporal knowledge of the flow field, we seek to identify these structures from sparse data sets involving trajectories of a few tracer particles or floats. We present the results of model and laboratory experimental studies to test the robustness and applicability of the braid theory method, and discuss the potential applicability to oceanic data sets.

Nov. 23, 2014, 3:46 PM – Nov. 23, 2014, 3:59 PM

Authors

Margaux Filippi
- Massachusetts Inst of Tech-MIT
Severine Atis
- Massachusetts Inst of Tech-MIT
- Massachussets Institute of Technology; EndLab, 77 Massachusetts Avenue, Cambridge MA 02139
Jean-Luc Thiffeault
- Univ of Wisconsin, Madison
- University of Wisconsin-Madison
- University of Wisconsin - Madison
Marko Budi\v{s}i\'{c}
- Univ of Wisconsin, Madison
- University of Wisconsin-Madison
Michael Allshouse
- University of Texas at Austin
- Massachusetts Institute of Technology
- Univ of Texas, Austin
- University of Texas-Austin
Thomas Peacock
- Massachusetts Institute of Technology
- Massachusetts Inst of Tech-MIT
- Massachussets Institute of Technology; EndLab, 77 Massachusetts Avenue, Cambridge MA 02139