Add to ORKGA framework fo r extracting features in 2D transient flows, based on the acceleration field to ensure Galilean invariance is proposed in this paper. The minima of the acceleration magnitude (a superset of acceleration zeros) are extracted and discriminated into vortices and saddle points, based on the spectral properties of the velocity Jacobian. The extraction of topological features is performed with purely combinatorial algorithms from discrete computational topology. The feature points are prioritized with persistence, as a physically meaningful importance measure. These feature points are tracked in time with a robust algorithm for tracking features. Thus, a space-time hierarchy of the minima is built and vortex merging events are dete...
This thesis addresses two major issues in the processing and analysis of the velocity fields of flui...
This thesis demonstrates a generalized method for extracting shear layers as features in viscous com...
Abstract: According to the coherent structure concept turbulent flow is not merely a random process ...
International audienceA framework for extracting features in 2D transient flows, based on the accele...
AbstractFeature-based ow visualization is naturally dependent on feature extraction. To extract ow f...
In the past, feature extraction and identification were interesting concepts, but not required to un...
false neg. by Q false pos. by Q Figure 1: Analyzing unsteady flows remains challenging as many techn...
We propose a combinatorial algorithm to track critical points of 2D time-dependent scalar fields. Ex...
As the size and complexity of flow data sets continuously increase, many vector field visualization ...
Classification of flow fields involving strong vortices such as those from bluff body wakes and anim...
We present a novel approach for analyzing two-dimensional (2D) flow field data based on the idea of ...
We present a novel approach for analyzing two-dimensional (2D) flow field data based on the idea of ...
Basic properties of critical points in two dimensions are reviewed and related to the velocity and a...
Classification of fluid flows is an essential part of Fluid Dynamics. Flows are typically characteri...
Presented here is a novel tool to extract and track believable vortex core lines from unsteady Compu...
This thesis addresses two major issues in the processing and analysis of the velocity fields of flui...
This thesis demonstrates a generalized method for extracting shear layers as features in viscous com...
Abstract: According to the coherent structure concept turbulent flow is not merely a random process ...
International audienceA framework for extracting features in 2D transient flows, based on the accele...
AbstractFeature-based ow visualization is naturally dependent on feature extraction. To extract ow f...
In the past, feature extraction and identification were interesting concepts, but not required to un...
false neg. by Q false pos. by Q Figure 1: Analyzing unsteady flows remains challenging as many techn...
We propose a combinatorial algorithm to track critical points of 2D time-dependent scalar fields. Ex...
As the size and complexity of flow data sets continuously increase, many vector field visualization ...
Classification of flow fields involving strong vortices such as those from bluff body wakes and anim...
We present a novel approach for analyzing two-dimensional (2D) flow field data based on the idea of ...
We present a novel approach for analyzing two-dimensional (2D) flow field data based on the idea of ...
Basic properties of critical points in two dimensions are reviewed and related to the velocity and a...
Classification of fluid flows is an essential part of Fluid Dynamics. Flows are typically characteri...
Presented here is a novel tool to extract and track believable vortex core lines from unsteady Compu...
This thesis addresses two major issues in the processing and analysis of the velocity fields of flui...
This thesis demonstrates a generalized method for extracting shear layers as features in viscous com...
Abstract: According to the coherent structure concept turbulent flow is not merely a random process ...