Add to ORKGThe analysis and visualization of flows is a central problem in visualization. Topology based methods have gained increasing interest in recent years. This article describes a method for the detection of closed streamlines in 3D flows. It is based on a special treatment of cases where a streamline reenters a cell to prevent infinite cycling during streamline calculation. The algorithm checks for possible exits of a loop of crossed faces and detects structurally stable closed streamlines. These global features are not detected by conventional topology and feature detection algorithms. 1
The visualization of numerical fluid flow datasets is essential to the engineering processes that mo...
Robust analysis of vector fields has been established as an important tool for deriving insights fro...
Streamline based method is one of the most important vector field visualization methods. In the past...
The analysis and visualization of flows is a central problem in visualization. Topology based method...
The analysis and visualization of flows is a central problem in visualization. Topology-based method...
Vector Fields occur in many of the problems in science and engineering. In combustion processes for...
The analysis and visualization of tensor fields is an advancing area in scientific visualization. To...
Closed streamlines are an integral part of vector field topology, since they behave like sources res...
Effective 3D streamline placement and visualization play an essential role in many science and engin...
Closed streamlines are an integral part of vector field topology, since they behave like sources res...
Abstract—Effective three-dimensional streamline placement and visualization plays an essential role ...
Visual exploration of large and complex 3D steady and unsteady flow fields is critically important i...
The local flow patterns and their bifurcations associated with non-simple degenerate critical points...
(a) LIC images at 3 different time slices. (b) Tracking the locations of critical points as stream l...
Abstract—Robust analysis of vector fields has been established as an important tool for deriving ins...
The visualization of numerical fluid flow datasets is essential to the engineering processes that mo...
Robust analysis of vector fields has been established as an important tool for deriving insights fro...
Streamline based method is one of the most important vector field visualization methods. In the past...
The analysis and visualization of flows is a central problem in visualization. Topology based method...
The analysis and visualization of flows is a central problem in visualization. Topology-based method...
Vector Fields occur in many of the problems in science and engineering. In combustion processes for...
The analysis and visualization of tensor fields is an advancing area in scientific visualization. To...
Closed streamlines are an integral part of vector field topology, since they behave like sources res...
Effective 3D streamline placement and visualization play an essential role in many science and engin...
Closed streamlines are an integral part of vector field topology, since they behave like sources res...
Abstract—Effective three-dimensional streamline placement and visualization plays an essential role ...
Visual exploration of large and complex 3D steady and unsteady flow fields is critically important i...
The local flow patterns and their bifurcations associated with non-simple degenerate critical points...
(a) LIC images at 3 different time slices. (b) Tracking the locations of critical points as stream l...
Abstract—Robust analysis of vector fields has been established as an important tool for deriving ins...
The visualization of numerical fluid flow datasets is essential to the engineering processes that mo...
Robust analysis of vector fields has been established as an important tool for deriving insights fro...
Streamline based method is one of the most important vector field visualization methods. In the past...